From afb21737b2354d297e85437bfbfb460d3255a5ae Mon Sep 17 00:00:00 2001 From: Steve Greedy Date: Thu, 3 May 2018 13:46:27 +0100 Subject: [PATCH] Public repository sync --- DOCUMENTATION/MOD_DOCUMENT/Imgs/Low_mass_spacewire_SE_10x10cm.jpg | Bin 0 -> 33110 bytes DOCUMENTATION/MOD_DOCUMENT/Imgs/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_result.jpg | Bin 0 -> 54010 bytes DOCUMENTATION/MOD_DOCUMENT/Imgs/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS_result.jpg | Bin 0 -> 50706 bytes DOCUMENTATION/MOD_DOCUMENT/Imgs/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS_result.jpg | Bin 0 -> 50297 bytes DOCUMENTATION/MOD_DOCUMENT/Imgs/braid.jpg | Bin 0 -> 173111 bytes DOCUMENTATION/MOD_DOCUMENT/Makefile | 32 ++++++++++++++++++++++++++++++++ DOCUMENTATION/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex | 36 ++++++++++++++++++++++++++++++++++++ DOCUMENTATION/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex | 124 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++++++++++++++++++++++++++++++++++++++++ MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib | 412 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib | 412 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib | 412 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec | 9 --------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec | 9 --------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec | 11 ----------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/readme.md | 1 - SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable | 631 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable | 631 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable | 631 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable | 141 --------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable | 141 --------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable | 1094 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec | 15 --------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec | 16 ---------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/readme.md | 1 - SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec | 89 ----------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec | 89 ----------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib | 3532 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib | 3532 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib | 3532 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/README | 1 - SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec | 89 ----------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib | 3778 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec | 89 ----------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib | 3786 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib | 3786 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib | 3786 ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec | 45 --------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec | 45 --------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib | 602 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy | 122 -------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym | 327 --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy | 122 -------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym | 327 --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/README | 1 - SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy | 122 -------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.sym | 327 --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy | 122 -------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.sym | 327 --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy | 42 ------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym | 107 ----------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy | 42 ------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym | 107 ----------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy | 90 ------------------------------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym | 239 ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym | 85 ------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec | 66 ------------------------------------------------------------------ SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib | 1196 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib | 1196 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib | 1196 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec | 40 ---------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib | 412 ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- 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SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_AWG_26_ESCC_3901025_V12.cable_spec | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec | 34 ---------------------------------- SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec | 51 --------------------------------------------------- SPACECRAFT_CABLE_MOD/SPACEWIRE_CONNECTOR/SpaceWire_connector.cable_spec | 15 --------------- SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec | 11 ----------- 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b/DOCUMENTATION/MOD_DOCUMENT/Imgs/braid.jpg new file mode 100644 index 0000000..eda5e4f Binary files /dev/null and b/DOCUMENTATION/MOD_DOCUMENT/Imgs/braid.jpg differ diff --git a/DOCUMENTATION/MOD_DOCUMENT/Makefile b/DOCUMENTATION/MOD_DOCUMENT/Makefile new file mode 100644 index 0000000..0450c14 --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Makefile @@ -0,0 +1,32 @@ +# +# makefile for creating PDF from LaTeX source +# + +# This Makefile needs attention as a pdf file can be produced locally and not moved to the level above. + +default : SACAMOS_Spacecraft_cable_MOD_development.pdf + +LATEX_FILES= \ +Tex/bibliography.tex \ +Tex/introduction.tex \ +Tex/preamble.tex \ +Tex/Twisted_pairs.tex \ +Tex/Shielded_twisted_pairs.tex \ +Tex/spacewire.tex \ +Tex/kley.tex + +SACAMOS_Spacecraft_cable_MOD_development.pdf: SACAMOS_Spacecraft_cable_MOD_development.tex $(LATEX_FILES) + TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex + TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex + TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex + +help: + @echo "make : make SACAMOS_Spacecraft_cable_MOD_development.pdf" + @echo "make clean : clean LaTeX files" + @echo "make clean_all : clean LaTeX files and image files" + +clean: + rm -f *.aux *.lof *.log *.out *.toc *.pdf + +clean_all: + rm -f *.aux *.lof *.log *.out *.toc *.pdf Imgs/*eps-converted-to.pdf diff --git a/DOCUMENTATION/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex b/DOCUMENTATION/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex new file mode 100644 index 0000000..2d7088e --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex @@ -0,0 +1,36 @@ +\documentclass{cablemod} + +% The preamble file sets up the details of the document, title, authors, license etc. +\input{./Tex/preamble.tex} + +% Begin document +\begin{document} + +% Make title page +\maketitle + +% Include table of contents +\tableofcontents + +% Define headers and footers for the remainder of the document +\pagestyle{fancy} +\fancyfoot[L]{\textit{\Reference}} +\fancyfoot[R]{\textit{\DocumentTitle, V\DocumentVersion}} +\fancyhead[L]{\textit{\DocumentSubTitle}} +\fancyhead[R]{} + +% Main text follows: + +\input{./Tex/introduction.tex } +\input{./Tex/Twisted_pairs.tex } +\input{./Tex/Shielded_twisted_pairs.tex } +\input{./Tex/spacewire.tex } + +% Bibliography +\input{./Tex/bibliography.tex} + +\appendix +\input{./Tex/kley.tex } + + +\end{document} diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex new file mode 100644 index 0000000..85ce64d --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex @@ -0,0 +1,124 @@ +\chapter{Shielded Twisted Pair cable models} + +The shielded twisted pair models consist of variant 12 STP from the standard \cite{3901/025} for LF signals and RS422 cables: variant 24 STP from the standard \cite{3902/002}. + + +The process followed to obtain the parameters for the \textbf{.cable\_spec} from information in the ESCC specifications is as follows (where we assume that all dimensions are converted to metres): + + \begin{enumerate} + \item + \begin{equation} + comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} + \end{equation} + + \item + \begin{equation} + dielectric\_radius = \frac{core\_max\_diameter}{2} + \end{equation} +Note that the $core\_max\_diameter$ is not set in the ESCC 3902002 document \cite{3902/002}. In this case it is chosen such that the differential mode impedance of the shielded twisted pair model is the specified 120 ohms. For variant 12 STP from the standard \cite{3901/025} the dielectric diameter is chosen to be slightly less than the max core diameter from Table 1(a) so that th twisted pair fits inside the shield. + + \item + \begin{equation} + conductor\_separation = 2* dielectric\_radius + \delta + \end{equation} + where $\delta$ is a small separtion distance, here assumed to be 0.01mm. This is required in order that the dielectric regions do no touch which would cause a problem for the mesh generation. + + \item + The conductor in the model is a homogeneous cylindrical conductor so we need an effective + conductivity. This is based on the maximum resistance (quoted in ohms/km) + + \begin{equation} + Conductivity = \frac{length}{(max\_resistance*nominal\_section)} + \end{equation} + + \item + \begin{equation} + shield\_radius=\frac{finished\_diameter}{2}-tj + \end{equation} + where tj is the outer jacket thickness. This is not specified in ESCC document but a typical value of 0.2mm is used + + \item The shield thickness is set to zero. This indicates to the software that an 'equivalent thickness' should be calculated such that the d.c. resistance of the shield is consistent with the d.c. transfer impedance. + + \item The dielectric surrounding each conductor is also assumed to be homogeneous and independent of frequency. +Materials used in the STP cables are: + + Fluoropolymer: $\epsilon_r=2.1$ + + microporous PTFE $\epsilon_r=1.3$ + + \item For RS422 cable, ESCC 3902/002 variant 24, the shield model is based on the shielding effectiveness curve in figure 1b. The usual definition of shielding effectiveness would make this a positive quantity however I am assuming that the curve here is of (1/SE)dB. + +If we assume that the shielding effectiveness can be related to the transfer impedance by the formula +\begin{equation} +SE(dB)=20log\left(\frac{2Z_0}{Z_T}\right) + \end{equation} + +where $Z_0$ is the termination impedance in the transfer impedance measurement and $Z_T$ is the transfer impedance, then + +\begin{equation} +Z_T=\frac{2Z_0}{10^{\frac{SE}{20}}} +\end{equation} + +Here it is assumed that $Z_0=50\Omega$. + +A value of the shield d.c. resistance is derived from the SE as $f \rightarrow 0$. + +\item For LF signal cable, variant 12 STP from the standard \cite{3901/025} no shielding effectiveness is specified so a 'reasonable' braid specification has been developed based on the requirement for 90\% coverage and a shield strand diameter of 0.079mm. From this specification the theory of Kley \cite{Kley} in appendix 1 is used to calculate a transfer impedance model of the form $Z_T=R_T+j\omega L_T$. In this case the braid specification is as follows: + +\begin{verbatim} +1.4E-3 ! braid diameter, D (m) +8 ! Number of carriers, C +6 ! Number of wires in a carrier, N +0.079e-3 ! diameter of a single wire, d (m) +5E7 ! conductivity of wires (S/m) +52.0 ! pitch angle of the braid (degrees) +\end{verbatim} + +$R_T$ is found as $\Re\left\{{Z_T}\right\}$ as $f \rightarrow 0$ and $L_T$ is found as $\frac{\Im\left\{{Z_T}\right\}}{j\omega}$ at a suitably high frequency (1GHz here). + +\end{enumerate} + + As an example, the cable specification for the 20AWG cable, variant 24 from \cite{3902/002} + + SPICE\_MODEL\_STP\_RS422\_AWG\_26\_ESCC\_3902002\_V24: + +\begin{verbatim} +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Shielded_twisted_pair +3 # number of conductors +8 # number of parameters + 2.111E-04 # parameter 1: inner conductor radius + 5.000E-04 # parameter 2: inner dielectric radius + 1.010E-03 # parameter 3: inner conductor separation + 1.050E-03 # parameter 4: shield radius + 0.000E+00 # parameter 5: shield thickness + 1.250E-03 # parameter 6:outer dielectric radius + 4.492E+07 # parameter 7: inner conductor conductivity + 4.492E+07 # parameter 8: shield conductivity +2 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.300E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +1 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.000E-01 5.035E-10 +0 # b order, b coefficients follow below: +1.0 +use_laplace + +\end{verbatim} + + +\clearpage diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/Twisted_pairs.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/Twisted_pairs.tex new file mode 100644 index 0000000..eef76f9 --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/Twisted_pairs.tex @@ -0,0 +1,64 @@ +\chapter{Twisted Pair cable models} + +Twisted pair models have been developed with gauges 20, 22, 24, from 3 different standards \cite{3901/019}, \cite{3901/002} and \cite{3901/025} i.e. 9 models in total. + +The process followed to obtain the parameters for the \textbf{.cable\_spec} file from information in the ESCC specifications is as follows (where we assume that all dimensions are converted to metres): + + \begin{enumerate} + + \item + \begin{equation} + comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} + \end{equation} + + \item + \begin{equation} + dielectric\_radius = \frac{core\_max\_diameter}{2} + \end{equation} + + \item + \begin{equation} + conductor\_separation = finished\_wire\_diameter -2* dielectric\_radius + \end{equation} + + + \item + The conductor in the model is a homogeneous cylindrical conductor so we need an effective + conductivity. This is based on the maximum resistance (quoted in ohms/km) + + \begin{equation} + Conductivity = \frac{length}{(max\_resistance*nominal\_section)} + \end{equation} + + \item +The dielectric surrounding each conductor is also assumed to be homogeneous and independent of frequency. + + polyimide: $\epsilon_r=3.4$ + +\end{enumerate} + + As an example, the cable specification for the 20AWG cable, variant 14 from \cite{3901/019} + + TP\_AWG\_20\_ESCC\_3901019\_V14.cable\_spec: + +\begin{verbatim} +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 4.370E-04 # parameter 1: inner conductor radius + 1.520E-03 # parameter 2: inner conductor separation + 7.400E-04 # parameter 3: inner dielectric radius + 4.762E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 +\end{verbatim} + + +\clearpage diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/bibliography.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/bibliography.tex new file mode 100644 index 0000000..fa7a6d3 --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/bibliography.tex @@ -0,0 +1,70 @@ +\begin{thebibliography}{9} + +\bibitem{sacamos} www.sacamos.org + +\bibitem{sacamos_UG} +C. Smartt, D.W.P. Thomas, S. Greedy, J. Verpoorte, J. Lansink Rotgerink +\textsl{SACAMOS User Guide} + +%TP + +\bibitem{3901/019}\textsl{ESCC 3901/019: POLYIMIDE INSULATED WIRES AND CABLES, +LOW FREQUENCY, 600V, -200 TO +200°C +BASED ON TYPE SPL} +https://escies.org/download/specdraftapppub?id=2686 + +\bibitem{3901/002}\textsl{ESCC 3901/002: POLYIMIDE INSULATED WIRES AND CABLES, +LOW FREQUENCY, 600V, -100 TO +200°C} +ESCC Detail Specification No. 3901/002 +https://escies.org/download/specdraftapppub?id=2558 + +%TP & STP + +\bibitem{3901/025}\textsl{ESCC 3901/025: LIGHTWEIGHT, EXTRA THIN, FLUORTHERMOPLASTIC / POLYIMIDE +INSULATED WIRES AND CABLES, LOW FREQUENCY, 600V, +-200 TO +200 °C +BASED ON TYPE CSC} +https://escies.org/download/specdraftapppub?id=2557 + +% STP + +%RS422 STP +\bibitem{3902/002}\textsl{ESCC 3902/002: COAXIAL, TRIAXIAL AND SYMMETRIC CABLES, FLEXIBLE, +-200 TO +180 oC} +https://escies.org/download/specdraftapppub?id=2986 + +%Spacewire +Cable: +\bibitem{3902/003}\textsl{ESCC 3902/003: CABLE, 'SPACEWIRE', ROUND, QUAD USING +SYMMETRIC CABLES, FLEXIBLE, -200 TO +180°C} +https://escies.org/download/specdraftapppub?id=3125 + +%LowMassSpacewire +\bibitem{3902/004}\textsl{ESCC 3902/004: CABLE, LOW MASS, 'SPACEWIRE', ROUND, +QUAD USING SYMMETRIC CABLES, FLEXIBLE, +-100 TO +150°C} + +%Connectors for SpaceWire: +\bibitem{3401/071}\textsl{ESCC 3401/071: CONNECTOR, ELECTRICAL, RECTANGULAR, +MICROMINIATURE, SOLDER BUCKET CONTACTS, +WITH EMI BACKSHELL +BASED ON TYPE MDM} +https://escies.org/download/specdraftapppub?id=2702 + + +\bibitem{Vance} +E. F. Vance +\textsl{Shielding effectiveness of braided wire shields}, IEEE transactions on EMC, vol +EMC-17, no 2, 1975, pp71-77 + +\bibitem{Kley} +T. Kley +\textsl{Optimized single-braided cable shields} IEEE Transactions on Electromagnetic +Compatibility, vol.35, no.1, pp.1,9, Feb 1993 + +\bibitem{Tesche} +F. M. Tesche, M. V. Ianov, T. Karlsson, +\textsl{EMC Analysis Methods and Computational Models} John Wiley and Sons, 1997. + + +\end{thebibliography} diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/introduction.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/introduction.tex new file mode 100644 index 0000000..9d58269 --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/introduction.tex @@ -0,0 +1,108 @@ +\chapter{Introduction}\label{introduction} + +The SACAMOS software \cite{sacamos} enables the creation of Spice cable models from the description/ characterisation of cables and bundles of cables together with information required to specify a particular modelling scenario (for example the specification of incident field excitation or transfer impedance coupling model). + +Example models of cables used in spacecraft have been included with the software in a library of cable models referred to as 'MOD'. +MOD also includes example Spice cable bundle models which make use of these cable models. + +The cable models in the library are based on the ESCC specification documents (references \cite{3901/019} to \cite{3401/071}) and include twisted pair power lines, shielded twisted pair low frequency signal lines and RS422 cables plus SpaceWire cable assemblies, including connectors. +This document describes the development of the library of cable models for spacecraft cables from these specifications and additional information where required i.e. how the information required in the cable specification \textbf{.cable\_spec} file \cite{sacamos_UG} is derived. + +\subsection{Cable types in MOD} + +The cable models defined in MOD are as follows: + +\begin{enumerate} + +\item Power lines: Twisted pairs with gauges 20, 22, 24, from 3 different standards \cite{3901/019}, \cite{3901/002} and \cite{3901/025} + +\item Low frequency signals: variant 12 Shielded Twisted Pair from the standard \cite{3901/025} + +\item RS422 cables: variant 24 Shielded Twisted Pair from the standard \cite{3902/002} + +\item SpaceWire: gauges 28 and 26 from the standard \cite{3902/003} and low mass SpaceWire cable from the stsndard \cite{3902/004} + +\item Connectors for SpaceWire: 9 contact connector from the standard \cite{3401/071} + +\end{enumerate} + +The cable naming convention combines the cable type (TP, STP, SPACEWIRE, LOW\_MASS\_SPACEWIRE) with the +wire gauge (AWG 20, 22, 24, 26, 28), the ESCC specification document number and the particular +cable variant number from within the specification. + +The cable and connector models described here and made avaialble in MOD are as follows: + +\textbf{Twisted Pair models} + +\begin{verbatim} +TP_AWG_20_ESCC_3901002_V34 + +TP_AWG_20_ESCC_3901019_V14 + +TP_AWG_20_ESCC_3901025_V10 + +TP_AWG_22_ESCC_3901002_V33 + +TP_AWG_22_ESCC_3901019_V13 + +TP_AWG_22_ESCC_3901025_V09 + +TP_AWG_24_ESCC_3901002_V32 + +TP_AWG_24_ESCC_3901019_V12 + +TP_AWG_24_ESCC_3901025_V08 +\end{verbatim} + +\textbf{Shielded Twisted Pair models} + +\begin{verbatim} +STP_AWG_26_ESCC_3901025_V12 + +STP_RS422_AWG_26_ESCC_3902002_V24 +\end{verbatim} + +\textbf{SpaceWire Cable models} + +\begin{verbatim} +SPACEWIRE_AWG_28_ESCC_3902003_V1 + +SPACEWIRE_AWG_26_ESCC_3902003_V2 + +LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 + +SPACEWIRE_CONNECTOR +\end{verbatim} + +%\subsection{Example sub-circuit models} +% +%For the practical use of the MOD library it would also be useful for the user, who needs cables "directly available" +%(according to the SoW) to provide "single cable bundles" based on the above, and the relevant Spice models. +%As, in practice, there is always a ground plane somewhere (a spacecraft structure panel, as discussed many times), +%it would be useful to provide Spice models of a cable (from the list of cable to be agreed) above a ground plane. +%The ground plane can be lossless, as, as discussed also several times, what tends to dominate is the impedance of +%the connections of the ending circuits to the ground plane, rather than its own losses. I would suggest to consider +%a height of the cable above the ground plane of 5 cm, as specified in most EMC standards. For the length: we can +%stick to 1 metre, as long as you are sure that the cables can be cascaded (by the user) to achieve 2, 3, 5, 10 metres +%without any unwanted effect. It seems to me that cascading 1 metre cables has the beneficial effect of spreading +%a little the DC resistance of the conductors, which should result in more realistic circuits. +\section{Dielectric materials} + +A number of different dielectrics are used in the construction of the cables specified. In all the cable models we assume that the dielectric material within each region is homogeneous, lossless and the relative permittivity is independent of frequency. + +The relative permittivities used for the dielectrics used in spacecraft cable models are: + +\begin{itemize} + +\item +polyimide: 3.4 + +\item +microporous PTFE: 1.3 + +\item +fluoropolymer PFA: 2.1 + +\end{itemize} + +\cleardoublepage diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/kley.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/kley.tex new file mode 100644 index 0000000..e5d9dd2 --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/kley.tex @@ -0,0 +1,106 @@ +\chapter{Transfer Impedance model according to Kley} \label{appendix_kley} + +From the work of Vance \cite{Vance} and Kley \cite{Kley} and the summary of this work in \cite{Tesche} we may calculate the frequency dependent transfer impedance of a braided wire shield from the cable shield parameters. The shield parameters are + +\begin{enumerate} +\item braid diameter, D +\item Number of carriers, C +\item Number of wires in a carrier, N +\item diameter of a single wire, d +\item conductivity of wires, $\sigma$ +\item pitch angle of the braid, $\alpha$ +\end{enumerate} + +These parameters are illustrated in figure \ref{fig:braid2}. + +\begin{figure}[h] +\centering +\includegraphics[scale=0.25]{./Imgs/braid.jpg} +\caption{Braid parameters} +\label{fig:braid2} +\end{figure} + +The transfer impedance is the sum of the effects of diffusion through the shield conductor, penetration of the field through the holes in the shield and the effects of the overalpping weave of the braid conductors. +\begin{equation} \label{eq:Kley_0} +Z_t=Z_d+j\omega M_h +j\omega M_b +\end{equation} + +The calculation of the transfer impedance terms proceeds as follows: + +The fill factor, F, is calculated as +% +\begin{equation} \label{eq:Kley_1} +F=\frac{N C d}{2 \pi D cos(\alpha)} +\end{equation} +% +The optical coverage, K, is +% +\begin{equation} \label{eq:Kley_2} +K=2F-F^2 +\end{equation} +% +The length and width of the rhombic holes are given by +\begin{equation} \label{eq:Kley_3} +l=\frac{\left(1-F\right)Nd}{Fsin(\alpha)} +\end{equation} +\begin{equation} \label{eq:Kley_4} +w=\frac{\left(1-F\right)Nd}{Fcos(\alpha)} +\end{equation} +% +a parameter, e, is defined as +\begin{equation} \label{eq:Kley_5} +e=\sqrt{1-\left(\frac{w}{l} \right)^2} +\end{equation} + +The diffusion impedance term is given by +\begin{equation} \label{eq:Kley_6} +Z_d=R_0\frac{\gamma}{sinh(\gamma t)} +\end{equation} +where $R_0$ is the d.c. resistance of the shield +\begin{equation} \label{eq:Kley_7} +R_0=\frac{4}{\pi d^2 N C \sigma cos(\alpha) } +\end{equation} +$\gamma$ is the propgation constant in the shield conductor +\begin{equation} \label{eq:Kley_8} +\gamma=\frac{1+j}{\delta } +\end{equation} +where +\begin{equation} \label{eq:Kley_9} +\delta=\sqrt{ \frac{2}{\omega \mu_0 \sigma } } +\end{equation} + +and $t$ is an equivalent thickness of the cable shield given by +\begin{equation} \label{eq:Kley_10} +t=\frac{1}{\pi \sigma D R_0 } +\end{equation} + +The hole inductance term is given by +\begin{equation} \label{eq:Kley_11} + M_h=\frac{\mu_0 \pi (1-K)^{\frac{3}{2}})e^2}{6 C (Em(e)-(1-e^2)Km(e))}*C_k +\end{equation} +where $Km$ and $Em$ are elliptic integrals and +\begin{equation} \label{eq:Kley_12} +C_k=0.875 e^{-T_h} +\end{equation} +\begin{equation} \label{eq:Kley_13} +T_h=9.6 F \left( \frac{K^2 d}{2a} \right) ^{\frac{1}{3}} +\end{equation} +\begin{equation} \label{eq:Kley_14} +a=D/2d0+d +\end{equation} + + +\begin{equation} \label{eq:Kley_15} +M_b=\frac{-0.22 \mu_0 d}{ 4 \pi D_m F cos( \alpha )}cos(2 k_1 \alpha) +\end{equation} +where +\begin{equation} \label{eq:Kley_16} +k_1=\frac{\pi}{2.667 F cos(\alpha)+\frac{\pi}{10} } +\end{equation} +and +\begin{equation} \label{eq:Kley_17} +D_m=D+2d +\end{equation} + + +\clearpage diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/preamble.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/preamble.tex new file mode 100644 index 0000000..9219d9a --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/preamble.tex @@ -0,0 +1,10 @@ +\usepackage{shortvrb,graphicx,amsmath} + +\newcommand{\DocumentTitle}{ Spacecraft cable MOD} +\newcommand{\DocumentSubTitle}{SACAMOS: State of the Art CAble MOdels for Spice} +\newcommand{\DocumentSubSubTitle}{Open Souce Cable Models for EMI Simulations} +\newcommand{\DocumentVersion}{1.1} +\newcommand{\DocumentAuthors}{Christopher Smartt\footnote{\UONname, contact: Chris.Smartt@nottingham.ac.uk}} +\newcommand{\License}{This document is subject to the GNU Free Documentation License (version 2.0).} +\newcommand{\Reference}{ESA 40000112765/14/NL/HK.} + diff --git a/DOCUMENTATION/MOD_DOCUMENT/Tex/spacewire.tex b/DOCUMENTATION/MOD_DOCUMENT/Tex/spacewire.tex new file mode 100644 index 0000000..17f50fd --- /dev/null +++ b/DOCUMENTATION/MOD_DOCUMENT/Tex/spacewire.tex @@ -0,0 +1,138 @@ +\chapter{SpaceWire cable models} + + The SpaceWire cable models, gauges 28 and 26 are derived from the standard \cite{3902/003} plus some additional information obtained from samples of cable for the shield transfer impedance specifications. + +The low mass SpaceWire cable model is derived from the standard \cite{3902/004} plus some additional information obtained from samples of cable for the shield transfer impedance specifications. + +The SpaceWire connector model is the 9 contact connector from the standard \cite{3401/071}. + +\subsection{SpaceWire cable model} + +The SpaceWire cable model parameters have beed determined as follows: + +\begin{enumerate} + + \item + \begin{equation} + comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} + \end{equation} + DSC07340small.jpg + \item + \begin{equation} + dielectric\_radius = \frac{core\_max\_diameter}{2} + \end{equation} + + +\item The conductor in the model is homogeneous so we need an effective conductivity. This is based on the maximum resistance (ohms/km). Note this is a single conductor resistance. + \begin{equation} + Conductivity = \frac{length}{(max\_resistance*nominal\_section)} + \end{equation} + +\item +The dielectric is expanded microporous PTFE whose relative permittivity for the purpose of the calculation of the capacitance matrix for the shielded twisted pair is assumed to be 1.5. This is somewhat higher than the quoted value of 1.3 but the model does not include the dielectric filler or the binder materials so it artificially increased to try and compensate. + +\item +It is not possible now to use the dimensions in table 1a as these are maximum dimensions so I have an iterative process so as to obtain a viable twisted pair cross section with a differential mode impedance of 100 ohms. (Using the dimensions in table 1a gives an impedance of 140ohms). + +It is assumed that the distance between the insulation of the twisted pair is 0.01mm. This ensures that the dielectrics do not touch in the model which will cause the mesh generation to fail. + +The adjustable parameters are the inner dielectric radius, and the inner shield radius. + +\item +The inner conductor separation (here = 2*dielectric radius +0.01mm) + +\item +The inner shield jacket radius is the inner shield radius + the maximum inner jacket wall radius =0.2mm (section 4.4.7.2 from \cite{3902/003}). This and the outer jacket are made of extruded fluoropolymer PFA for which I am using a relative permittivity of 2.1. + +\item +The shielded twisted pair radius and the outer shield radius are chosen to give a sensible looking cable cross section while keeping within the maximum cable diameter (table 1a.) + +\item +The outer jacket thickness is 0.25mm (section 4.4.7.2 from \cite{3902/003}) + +\item Shield models. + +The shield conductivity is taken to be the same as for the inner wires and the shield thickness is set to zero in the \textbf{.cable\_spec} file - this then allows the software to calculate an 'equivalent thickness' so that the d.c. resistance of the shield is equal to the d.c. transfer impedance. + +The shield transfer impedance models for the inner and outer shields cannot be based on the shielding effectiveness curve in figure 1b as this relates to the shielding effectiveness of the combination of inner and outer shields, connected together. + +The shield transfer impedance models are obtained by directly measuring the braid geometry of samples of both AWG28 and AWG26 SpaceWire cables and Low Mass SpaceWire cable. From photographs of both the inner and outer braids, the number of carriers, number of wires in a carrier and the pitch angle of the braid can be determined. +From this specification the theory of Kley \cite{Kley} in appendix 1 is used to calculate a transfer impedance model of the form $Z_T=R_T+j\omega L_T$. + +$R_T$ is found as $\Re\left\{{Z_T}\right\}$ as $f \rightarrow 0$ and $L_T$ is found as $\frac{\Im\left\{{Z_T}\right\}}{j\omega}$ at a suitably high frequency (1GHz here). + + +\end{enumerate} + +The shielding effectiveness of the SpaceWire models are shown in figures \ref{fig_SE28} and \ref{fig_SE26} respectively. These curves can be compared with figure 1b in the ESCC specification document. + +\begin{figure}[h] +\centering +\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS_result.jpg} +\caption{AWG 28 V1 SpaceWire Shielding Effectiveness} +\label{fig_SE28} +\end{figure} + +\begin{figure}[h] +\centering +\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS_result.jpg} +\caption{AWG 26 V2 SpaceWire Shielding Effectiveness} +\label{fig_SE26} +\end{figure} + + +\subsection{Low Mass SpaceWire cable model} + +The low mass SpaceWire cable model is derived in exactly the same way as the SpaceWire models. It should be noted that there is no insulation between the inner and outer shields of low mass SpaceWire although the model assumes that there is. This can lead to modes propagating in the model in the region between the inner and outer shields which will not exist in the real cable. This is illustrated in the shielding effectiveness calculation shown in figure \ref{fig_SE_low_mass_1} which shows the shielding effectiveness of 1m of the Low Mass spaceWire cable +model. A model which is more representative of the real cable can be constructed by building the 1m cable from 10cm sections and connecting the inner shields and the outer shield together between each of the sections. The shielding effectivenes obtained from this model is shown in figure \ref{fig_SE_low_mass_2}. + +\begin{figure}[h] +\centering +\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_result.jpg} +\caption{Low Mass Spacewire shielding effectiveness} +\label{fig_SE_low_mass_1} +\end{figure} + +\begin{figure}[h] +\centering +\includegraphics[scale=0.6]{./Imgs/Low_mass_spacewire_SE_10x10cm.jpg} +\caption{Low Mass Spacewire shielding effectiveness which shields connected every 10cm} +\label{fig_SE_low_mass_2} +\end{figure} + +\subsection{SpaceWire connector model} + +The SpaceWire connector model is specified as a Dconnector in the SACAMOS software. The parameters for the Dconnector model are obtained from the standard \cite{3401/071} as follows: + +\begin{enumerate} + + \item conductor\_radius: fig 2.1 a,b + + \item conductor\_pitch (x\_separation): fig 2.1 a,b + + \item conductor y\_separation: fig 2.1 a,b + + \item offset from conductors to shell:fig 2.1 a,b; 0.5*(G-y\_separation-2*conductor\_radius) + +\end{enumerate} + + +\begin{verbatim} +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Dconnector +10 # number of conductors. This model from ESCC 3401/071, 9 pin connector +4 # number of parameters +0.43e-3 # parameter 1: conductor radius: fig 2.1 a,b +1.27e-3 # parameter 2: conductor pitch (separation in x): fig 2.1 a,b +1.09e-3 # parameter 3: conductor separation in y: fig 2.1 a,b +1.37e-3 # parameter 4: offset from conductors to shell:fig 2.1 a,b; + 0.5*(G-yseparation-2*rw) +0 # number of frequency dependent parameters +0 # number of transfer impedance models +use_laplace +\end{verbatim} + + + +\clearpage diff --git a/DOCUMENTATION/Makefile b/DOCUMENTATION/Makefile index d978ccc..11d8006 100644 --- a/DOCUMENTATION/Makefile +++ b/DOCUMENTATION/Makefile @@ -1,19 +1,21 @@ -default: user_guide theory_manual +default: user_guide theory_manual mod_document -clean: clean_theory_manual clean_user_guide +clean: clean_theory_manual clean_user_guide clean_mod_document TOP_LEVEL_DIRECTORY:=$(shell pwd) export TOP_LEVEL_DIRECTORY help: - @echo "make : make SACAMOS_UserGuide.pdf and SACAMOS_TheoryManual.pdf" - @echo "make install : make SACAMOS_UserGuide.pdf and SACAMOS_TheoryManual.pdf and move to the top level" + @echo "make : make SACAMOS_UserGuide.pdf, SACAMOS_TheoryManual.pdf and SACAMOS_Spacecraft_cable_MOD_development.pdf" + @echo "make install : make SACAMOS_UserGuide.pdf, SACAMOS_TheoryManual.pdf and SACAMOS_Spacecraft_cable_MOD_development.pdf" and move to the top level" @echo "make user_guide : make SACAMOS_UserGuide.pdf" @echo "make theory_manual : make SACAMOS_TheoryManual.pdf" + @echo "make mod_document : make SACAMOS_Spacecraft_cable_MOD_development.pdf" @echo "make clean : clean all LaTeX files" @echo "make clean_theory_manual : clean theory manual LaTeX files" @echo "make clean_user_guide : clean user guide LaTeX files" + @echo "make clean_mod_document : clean mod document LaTeX files" @echo "make clean_all : clean all LaTeX files and image files" theory_manual: @@ -22,11 +24,16 @@ theory_manual: user_guide: ( cd USER_GUIDE ; $(MAKE) ) +mod_document: + ( cd MOD_DOCUMENT ; $(MAKE) ) + install: ( cd USER_GUIDE ; $(MAKE) ) ( mv USER_GUIDE/SACAMOS_UserGuide.pdf . ) ( cd THEORY_MANUAL ; $(MAKE) ) ( mv THEORY_MANUAL/SACAMOS_TheoryManual.pdf . ) + ( cd MOD_DOCUMENT ; $(MAKE) ) + ( mv MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.pdf . ) clean_theory_manual: ( cd THEORY_MANUAL ; make clean ) @@ -34,6 +41,10 @@ clean_theory_manual: clean_user_guide: ( cd USER_GUIDE ; make clean ) +clean_mod_document: + ( cd MOD_DOCUMENT ; make clean ) + clean_all: ( cd THEORY_MANUAL ; make clean_all ) ( cd USER_GUIDE ; make clean_all ) + ( cd MOD_DOCUMENT ; make clean_all ) diff --git a/DOCUMENTATION/SACAMOS_Spacecraft_cable_MOD_development.pdf b/DOCUMENTATION/SACAMOS_Spacecraft_cable_MOD_development.pdf new file mode 100644 index 0000000..2f2dedc Binary files /dev/null and b/DOCUMENTATION/SACAMOS_Spacecraft_cable_MOD_development.pdf differ diff --git a/DOCUMENTATION/SACAMOS_TheoryManual.pdf b/DOCUMENTATION/SACAMOS_TheoryManual.pdf index fd70717..1815d26 100644 Binary files a/DOCUMENTATION/SACAMOS_TheoryManual.pdf and b/DOCUMENTATION/SACAMOS_TheoryManual.pdf differ diff --git a/DOCUMENTATION/SACAMOS_UserGuide.pdf b/DOCUMENTATION/SACAMOS_UserGuide.pdf index 1ff29d5..505aafc 100644 Binary files a/DOCUMENTATION/SACAMOS_UserGuide.pdf and b/DOCUMENTATION/SACAMOS_UserGuide.pdf differ diff --git a/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec new file mode 100644 index 0000000..999d407 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 +0.0 0.0056 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec new file mode 100644 index 0000000..c835c12 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +SPACEWIRE_AWG_26_ESCC_3902003_V2 +0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec new file mode 100644 index 0000000..ad8c232 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +SPACEWIRE_AWG_28_ESCC_3902003_V1 +0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec new file mode 100644 index 0000000..c619e05 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec @@ -0,0 +1,9 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +STP_AWG_26_ESCC_3901025_V12 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace diff --git a/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec new file mode 100644 index 0000000..ef2c584 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec @@ -0,0 +1,9 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +STP_RS422_AWG_26_ESCC_3902002_V24 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace diff --git a/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec new file mode 100644 index 0000000..616d087 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows +SpaceWire_connector +0.0 0.0 0.0 +no_ground_plane +use_laplace +verbose + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec new file mode 100644 index 0000000..885e265 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_20_ESCC_3901002_V34 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec new file mode 100644 index 0000000..1574364 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_20_ESCC_3901019_V14 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec new file mode 100644 index 0000000..5f4a137 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_20_ESCC_3901025_V10 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec new file mode 100644 index 0000000..42c3f45 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_22_ESCC_3901002_V33 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec new file mode 100644 index 0000000..41464ba --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_22_ESCC_3901019_V13 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec new file mode 100644 index 0000000..3a39de9 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_22_ESCC_3901025_V09 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec new file mode 100644 index 0000000..8512e16 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_24_ESCC_3901002_V32 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec new file mode 100644 index 0000000..5065030 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_24_ESCC_3901019_V12 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec new file mode 100644 index 0000000..2aea618 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec @@ -0,0 +1,11 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +#MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +1 # Number of cables in bundle, cable list follows: name then x,y of cable +TP_AWG_24_ESCC_3901025_V08 +0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane +ground_plane +use_laplace + + diff --git a/MOD_SPACE_CABLES/BUNDLE/readme.md b/MOD_SPACE_CABLES/BUNDLE/readme.md new file mode 100644 index 0000000..5c14bd2 --- /dev/null +++ b/MOD_SPACE_CABLES/BUNDLE/readme.md @@ -0,0 +1 @@ +Directory for cable bundle models and directories with the associated Spice cable bundle models diff --git a/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable b/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable new file mode 100644 index 0000000..bbefc80 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable @@ -0,0 +1,631 @@ +v3.0.3 +spacewire + 6 # cable type number + 13 # Total Number of conductors + 1 # Number of external conductors + 10 # Total number of domains (including external domain) + 12 # Number of internal conductors + 9 # Number of internal domains + 13 # Number of cable parameters + 1.7390000000000000E-004 + 3.7750000000000001E-004 + 7.6499999999999995E-004 + 7.6999999999999996E-004 + 0.0000000000000000 + 8.0999999999999996E-004 + 1.1529999999999999E-003 + 2.0500000000000002E-003 + 0.0000000000000000 + 2.2499999999999998E-003 + 41120000.000000000 + 36000000.000000000 + 36000000.000000000 + 3 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.5000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 2 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.0000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 3 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.3000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.7390000000000000E-004 # conductor radius + 41120000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 4 # Conductor impedance model type + 7.6999999999999996E-004 # conductor radius + 36000000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.5694333038215491E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.7000000000000004E-002 1.0000000000000000E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.6999999999999996E-004 # conductor radius + 36000000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.5694333038215491E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.7000000000000004E-002 1.0000000000000000E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.6999999999999996E-004 # conductor radius + 36000000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.5694333038215491E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.7000000000000004E-002 1.0000000000000000E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.6999999999999996E-004 # conductor radius + 36000000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.5694333038215491E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.7000000000000004E-002 1.0000000000000000E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 2.0500000000000002E-003 # conductor radius + 36000000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 1.5404078890040199E-004 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 1.4000000000000000E-002 -4.3999999999999998E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + External to domain conductor current transformation matrix, MI + 14 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 14 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.85324765E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.98593060E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8532476462811096E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9859306040318197E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 2 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.33607009E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.10221287E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3360700933644680E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1022128652960076E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 3 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.85324765E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.98593060E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8532476462811096E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9859306040318197E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 4 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.33607009E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.10221287E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3360700933644680E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1022128652960076E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 5 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.85324765E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.98593060E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8532476462811096E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9859306040318197E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 6 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.33607009E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.10221287E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3360700933644680E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1022128652960076E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 7 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.85324765E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.98593060E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8532476462811096E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9859306040318197E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 8 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.33607009E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.10221287E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3360700933644680E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1022128652960076E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 9 + 5 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 4 Dimension of L + 5.98227033E-08 1.92921117E-08 1.09685210E-08 1.92921117E-08 + 1.92921117E-08 5.98227033E-08 1.92921117E-08 1.09685210E-08 + 1.09685210E-08 1.92921117E-08 5.98227033E-08 1.92921117E-08 + 1.92921117E-08 1.09685210E-08 1.92921117E-08 5.98227033E-08 + High frequency Per-Unit-length Capacitance Matrix, C + 4 Dimension of C + 2.25673589E-10 -6.09351987E-11 -2.07560314E-12 -6.09351987E-11 + -6.09351987E-11 2.25673589E-10 -6.09351987E-11 -2.07560314E-12 + -2.07560314E-12 -6.09351987E-11 2.25673589E-10 -6.09351987E-11 + -6.09351987E-11 -2.07560314E-12 -6.09351987E-11 2.25673589E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 4 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.9822703276690062E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777232E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0968521004166003E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777258E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777232E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.9822703276690076E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777265E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0968521004166014E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0968521004166003E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777265E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.9822703276690076E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777271E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777258E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0968521004166014E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.9292111658777271E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.9822703276690089E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 4 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2567358930951385E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672112997E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0756031433129014E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113088E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672112997E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2567358930951385E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113127E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0756031433129402E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0756031433129014E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113127E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2567358930951390E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113140E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113088E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0756031433129402E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -6.0935198672113140E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2567358930951388E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 9 + 3 + 10 + 4 + 11 + 5 + 12 + 13 + 13 + 13 + 13 + 0 + # number of conductors in each domain + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 5 + 2 + # External conductor information and dielectric model + 1 conductor type + 2.0500000000000002E-003 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 2.2499999999999998E-003 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.3000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 + Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield diff --git a/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec b/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec new file mode 100644 index 0000000..549ddcd --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec @@ -0,0 +1,51 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Spacewire +13 # number of conductors +13 # number of parameters + 1.739E-04 # parameter 1: inner conductor radius + 3.775E-04 # parameter 2: inner dielectric radius + 7.650E-04 # parameter 3: inner conductor separation + 7.700E-04 # parameter 4: inner shield radius + 0.000E+00 # parameter 5: inner shield thickness + 8.100E-04 # parameter 6: inner shield jacket radius + 1.153E-03 # parameter 7: shielded twisted pair radius + 2.050E-03 # parameter 8: outer shield radius + 0.000E+00 # parameter 9: outer shield thickness + 2.250E-03 # parameter 10:outer dielectric radius + 4.112E+07 # parameter 11: inner wire conductor conductivity + 3.6E+07 # parameter 12: inner shield conductivity + 3.6E+07 # parameter 13: outer shield conductivity +3 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.500E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.000E+00 +0 # b order, b coefficients follow below: +1.0 +# Outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.300E+00 +0 # b order, b coefficients follow below: +1.0 +2 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 6.700E-02 1.000E-10 +0 # b order, b coefficients follow below: +1.0 +# Outer shield transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.400E-02 -4.400E-10 +0 # b order, b coefficients follow below: +1.0 +use_laplace diff --git a/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable new file mode 100644 index 0000000..fa6009f --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable @@ -0,0 +1,631 @@ +v3.0.3 +spacewire + 6 # cable type number + 13 # Total Number of conductors + 1 # Number of external conductors + 10 # Total number of domains (including external domain) + 12 # Number of internal conductors + 9 # Number of internal domains + 13 # Number of cable parameters + 2.1190000000000000E-004 + 3.7250000000000000E-004 + 7.5500000000000003E-004 + 1.0000000000000000E-003 + 0.0000000000000000 + 1.1999999999999999E-003 + 1.7040000000000000E-003 + 3.2499999999999999E-003 + 0.0000000000000000 + 3.5000000000000001E-003 + 44610000.000000000 + 44610000.000000000 + 44610000.000000000 + 3 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.5000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 2 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 3 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1190000000000000E-004 # conductor radius + 44610000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 4 # Conductor impedance model type + 1.0000000000000000E-003 # conductor radius + 44610000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.7016989022419418E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 4.1000000000000002E-002 2.0000000000000001E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 1.0000000000000000E-003 # conductor radius + 44610000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.7016989022419418E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 4.1000000000000002E-002 2.0000000000000001E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 1.0000000000000000E-003 # conductor radius + 44610000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.7016989022419418E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 4.1000000000000002E-002 2.0000000000000001E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 1.0000000000000000E-003 # conductor radius + 44610000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.7016989022419418E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 4.1000000000000002E-002 2.0000000000000001E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 3.2499999999999999E-003 # conductor radius + 44610000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 9.1479398715876826E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 1.2000000000000000E-002 -4.7000000000000003E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + External to domain conductor current transformation matrix, MI + 14 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 14 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.80745572E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.73527009E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8074557218255402E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.7352700928051482E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 2 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.70905910E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 7.51425710E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.7090590994162511E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 7.5142571043507790E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 3 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.80745572E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.73527009E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8074557218255402E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.7352700928051482E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 4 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.70905910E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 7.51425710E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.7090590994162511E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 7.5142571043507790E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 5 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.80745572E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.73527009E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8074557218255402E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.7352700928051482E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 6 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.70905910E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 7.51425710E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.7090590994162511E-007 + 0 # b order, b coefficients 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0.0000000000000000 7.5142571043507790E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 9 + 5 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 4 Dimension of L + 1.25571739E-07 3.94946028E-08 2.28925342E-08 3.94946028E-08 + 3.94946028E-08 1.25571739E-07 3.94946028E-08 2.28925342E-08 + 2.28925342E-08 3.94946028E-08 1.25571739E-07 3.94946028E-08 + 3.94946028E-08 2.28925342E-08 3.94946028E-08 1.25571739E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 4 Dimension of C + 1.53215907E-10 -4.63930978E-11 -2.00069260E-12 -4.63930978E-11 + -4.63930978E-11 1.53215907E-10 -4.63930978E-11 -2.00069260E-12 + -2.00069260E-12 -4.63930978E-11 1.53215907E-10 -4.63930978E-11 + -4.63930978E-11 -2.00069260E-12 -4.63930978E-11 1.53215907E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 4 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.2557173851405208E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9494602834963604E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2892534211388188E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9494602834963644E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9494602834963604E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 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3.9494602834963670E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.2557173851405210E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9494602834963591E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9494602834963644E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2892534211387924E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w 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# a order, a coefficients follow below: + -0.0000000000000000 -2.0006925965197526E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833320973E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833321154E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.5321590668823784E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833321400E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0006925965201403E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0006925965197526E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833321400E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.5321590668823796E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833321257E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833320973E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0006925965201403E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -4.6393097833321257E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.5321590668823789E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 9 + 3 + 10 + 4 + 11 + 5 + 12 + 13 + 13 + 13 + 13 + 0 + # number of conductors in each domain + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 5 + 2 + # External conductor information and dielectric model + 1 conductor type + 3.2499999999999999E-003 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 3.5000000000000001E-003 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 + Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield diff --git a/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec new file mode 100644 index 0000000..7e0b093 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec @@ -0,0 +1,51 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Spacewire +13 # number of conductors +13 # number of parameters + 2.119E-04 # parameter 1: inner conductor radius + 3.725E-04 # parameter 2: inner dielectric radius + 7.550E-04 # parameter 3: inner conductor separation + 1.000E-03 # parameter 4: inner shield radius + 0.000E+00 # parameter 5: inner shield thickness + 1.200E-03 # parameter 6: inner shield jacket radius + 1.704E-03 # parameter 7: shielded twisted pair radius + 3.250E-03 # parameter 8: outer shield radius + 0.000E+00 # parameter 9: outer shield thickness + 3.500E-03 # parameter 10:outer dielectric radius + 4.461E+07 # parameter 11: inner wire conductor conductivity + 4.461E+07 # parameter 12: inner shield conductivity + 4.461E+07 # parameter 13: outer shield conductivity +3 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.500E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +# Outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +2 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 4.100E-02 2.000E-10 +0 # b order, b coefficients follow below: +1.0 +# Outer shield transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.2e-2 -4.7E-10 +0 # b order, b coefficients follow below: +1.0 +use_laplace diff --git a/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable new file mode 100644 index 0000000..3e61433 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable @@ -0,0 +1,631 @@ +v3.0.3 +spacewire + 6 # cable type number + 13 # Total Number of conductors + 1 # Number of external conductors + 10 # Total number of domains (including external domain) + 12 # Number of internal conductors + 9 # Number of internal domains + 13 # Number of cable parameters + 1.6830000000000000E-004 + 3.6249999999999998E-004 + 7.3499999999999998E-004 + 7.5000000000000002E-004 + 0.0000000000000000 + 9.5000000000000000E-004 + 1.3510000000000000E-003 + 2.3999999999999998E-003 + 0.0000000000000000 + 2.6500000000000000E-003 + 43890000.000000000 + 43890000.000000000 + 43890000.000000000 + 3 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.5000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 2 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 3 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 1.6830000000000000E-004 # conductor radius + 43890000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 4 # Conductor impedance model type + 7.5000000000000002E-004 # conductor radius + 43890000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 7.7983297977051781E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.2000000000000000E-002 -4.3999999999999998E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.5000000000000002E-004 # conductor radius + 43890000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 7.7983297977051781E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.2000000000000000E-002 -4.3999999999999998E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.5000000000000002E-004 # conductor radius + 43890000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 7.7983297977051781E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.2000000000000000E-002 -4.3999999999999998E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 7.5000000000000002E-004 # conductor radius + 43890000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 7.7983297977051781E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 6.2000000000000000E-002 -4.3999999999999998E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + 4 # Conductor impedance model type + 2.3999999999999998E-003 # conductor radius + 43890000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 8.8878023429728154E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 1.7000000000000001E-002 -4.7000000000000003E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + External to domain conductor current transformation matrix, MI + 14 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 14 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.88193756E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.92817471E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8819375597837255E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9281747143851089E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 2 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.36069653E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.07039039E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3606965253540117E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0703903937677543E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 3 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.88193756E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.92817471E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8819375597837255E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9281747143851089E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 4 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.36069653E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.07039039E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3606965253540117E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0703903937677543E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 5 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.88193756E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.92817471E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8819375597837255E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9281747143851089E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 6 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.36069653E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.07039039E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3606965253540117E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0703903937677543E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 7 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.88193756E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.92817471E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.8819375597837255E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9281747143851089E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 8 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.36069653E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.07039039E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3606965253540117E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.0703903937677543E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 9 + 5 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 4 Dimension of L + 1.16215602E-07 2.76181295E-08 1.36256320E-08 2.76181295E-08 + 2.76181295E-08 1.16215602E-07 2.76181295E-08 1.36256320E-08 + 1.36256320E-08 2.76181295E-08 1.16215602E-07 2.76181295E-08 + 2.76181295E-08 1.36256320E-08 2.76181295E-08 1.16215602E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 4 Dimension of C + 1.61342522E-10 -3.85129803E-11 -2.04082114E-12 -3.85129803E-11 + -3.85129803E-11 1.61342522E-10 -3.85129803E-11 -2.04082114E-12 + -2.04082114E-12 -3.85129803E-11 1.61342522E-10 -3.85129803E-11 + -3.85129803E-11 -2.04082114E-12 -3.85129803E-11 1.61342522E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 4 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1621560235622190E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501146E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3625631951265863E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501170E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501146E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1621560235622203E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501497E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3625631951265793E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3625631951265863E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501497E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1621560235622233E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501782E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501170E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.3625631951265793E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7618129497501782E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.1621560235622186E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 4 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.6134252224878675E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274242548E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0408211379472200E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 1 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274242859E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274242548E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.6134252224878644E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274243182E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 2 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0408211379465091E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0408211379472200E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274243182E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.6134252224878677E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 3 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274243466E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274242859E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 2 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -2.0408211379465091E-012 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 3 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + -0.0000000000000000 -3.8512980274243466E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 +Element: 4 4 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.6134252224878649E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 9 + 3 + 10 + 4 + 11 + 5 + 12 + 13 + 13 + 13 + 13 + 0 + # number of conductors in each domain + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 2 + 5 + 2 + # External conductor information and dielectric model + 1 conductor type + 2.3999999999999998E-003 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 2.6500000000000000E-003 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 + Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield diff --git a/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec new file mode 100644 index 0000000..466742d --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec @@ -0,0 +1,51 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Spacewire +13 # number of conductors +13 # number of parameters + 1.683E-04 # parameter 1: inner conductor radius + 3.625E-04 # parameter 2: inner dielectric radius + 7.350E-04 # parameter 3: inner conductor separation + 7.500E-04 # parameter 4: inner shield radius + 0.000E+00 # parameter 5: inner shield thickness + 9.500E-04 # parameter 6: inner shield jacket radius + 1.351E-03 # parameter 7: shielded twisted pair radius + 2.400E-03 # parameter 8: outer shield radius + 0.000E+00 # parameter 9: outer shield thickness + 2.650E-03 # parameter 10:outer dielectric radius + 4.389E+07 # parameter 11: inner wire conductor conductivity + 4.389E+07 # parameter 12: inner shield conductivity + 4.389E+07 # parameter 13: outer shield conductivity +3 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.500E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +# Outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +2 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 6.200E-02 -4.4E-10 +0 # b order, b coefficients follow below: +1.0 +# Outer shield transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.7e-2 -4.7E-10 +0 # b order, b coefficients follow below: +1.0 +use_laplace diff --git a/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable b/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable new file mode 100644 index 0000000..df56df5 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable @@ -0,0 +1,141 @@ +v3.0.3 +shielded_twisted_pair + 5 # cable type number + 3 # Total Number of conductors + 1 # Number of external conductors + 3 # Total number of domains (including external domain) + 2 # Number of internal conductors + 2 # Number of internal domains + 8 # Number of cable parameters + 2.1850000000000000E-004 + 3.4000000000000002E-004 + 6.8999999999999997E-004 + 6.9999999999999999E-004 + 0.0000000000000000 + 8.9999999999999998E-004 + 39220000.000000000 + 39220000.000000000 + 2 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 2 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.1850000000000000E-004 # conductor radius + 39220000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1850000000000000E-004 # conductor radius + 39220000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 4 # Conductor impedance model type + 6.9999999999999999E-004 # conductor radius + 39220000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 4.1408210901324637E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.14000000000000001 2.7000000000000002E-009 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + External to domain conductor current transformation matrix, MI + 4 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 4 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 2.55745483E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 7.14057306E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.5574548317213893E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 7.1405730553725655E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 2 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 9.52049852E-08 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 1.79639890E-10 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 9.5204985199777693E-008 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.7963989026287757E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 3 + 0 + # number of conductors in each domain + 2 + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 6.9999999999999999E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 8.9999999999999998E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 + Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield diff --git a/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec b/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec new file mode 100644 index 0000000..bf7c0d6 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec @@ -0,0 +1,34 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Shielded_twisted_pair +3 # number of conductors +8 # number of parameters + 2.185E-04 # parameter 1: inner conductor radius + 3.400E-04 # parameter 2: inner dielectric radius + 6.900E-04 # parameter 3: inner conductor separation + 7.000E-04 # parameter 4: shield radius + 0.000E+00 # parameter 5: shield thickness + 9.000E-04 # parameter 6:outer dielectric radius + 3.922E+07 # parameter 7: inner conductor conductivity + 3.922E+07 # parameter 8: shield conductivity +2 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +1 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.400E-01 2.700E-09 +0 # b order, b coefficients follow below: +1.0 +use_laplace diff --git a/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable b/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable new file mode 100644 index 0000000..8a3b7bc --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable @@ -0,0 +1,141 @@ +v3.0.3 +shielded_twisted_pair + 5 # cable type number + 3 # Total Number of conductors + 1 # Number of external conductors + 3 # Total number of domains (including external domain) + 2 # Number of internal conductors + 2 # Number of internal domains + 8 # Number of cable parameters + 2.1110000000000001E-004 + 5.0000000000000001E-004 + 1.0100000000000000E-003 + 1.0499999999999999E-003 + 0.0000000000000000 + 1.2500000000000000E-003 + 44920000.000000000 + 44920000.000000000 + 2 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.3000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Dielectric filter number 2 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.1110000000000001E-004 # conductor radius + 44920000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.1110000000000001E-004 # conductor radius + 44920000.000000000 # conductivity + 0.50000000000000000 # Resistance_multiplication_factor + 4 # Conductor impedance model type + 1.0499999999999999E-003 # conductor radius + 44920000.000000000 # conductivity + 1.0000000000000000 # Resistance_multiplication_factor + 3.3743574416294646E-005 # shield thickness + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.10000000000000001 5.0349999999999997E-010 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + External to domain conductor current transformation matrix, MI + 4 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 4 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.31971626E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.17032929E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.3197162620952947E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.1703292879788645E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Domain number 2 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 1.50805954E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 8.78367705E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 1.5080595434410046E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 8.7836770483613123E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 3 + 0 + # number of conductors in each domain + 2 + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 1.0499999999999999E-003 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 1.2500000000000000E-003 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 + Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield diff --git a/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec b/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec new file mode 100644 index 0000000..3e9d81d --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec @@ -0,0 +1,34 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Shielded_twisted_pair +3 # number of conductors +8 # number of parameters + 2.111E-04 # parameter 1: inner conductor radius + 5.000E-04 # parameter 2: inner dielectric radius + 1.010E-03 # parameter 3: inner conductor separation + 1.050E-03 # parameter 4: shield radius + 0.000E+00 # parameter 5: shield thickness + 1.250E-03 # parameter 6:outer dielectric radius + 4.492E+07 # parameter 7: inner conductor conductivity + 4.492E+07 # parameter 8: shield conductivity +2 # number of frequency dependent parameters +# Inner dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 1.300E+00 +0 # b order, b coefficients follow below: +1.0 +# Shielded twisted pair outer dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 +1 # number of frequency dependent transfer impedance models +# Shielded twisted pair transfer impedance model follows +1.0 # w normalisation constant +1 # a order, a coefficients follow below: + 1.000E-01 5.035E-10 +0 # b order, b coefficients follow below: +1.0 +use_laplace diff --git a/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable b/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable new file mode 100644 index 0000000..f12c448 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable @@ -0,0 +1,1094 @@ +v3.0.3 +dconnector + 9 # cable type number + 10 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 9 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 4.2999999999999999E-004 + 1.2700000000000001E-003 + 1.0900000000000000E-003 + 1.3699999999999999E-003 + 0 # number of frequency dependent dielectric models + # Conductor impedance models + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + 0 # Conductor impedance model type + External to domain conductor current transformation matrix, MI + 11 Dimension of MI + 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 + 0.00000000E+00 0.00000000E+00 0.00000000E+00 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normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.8539786931039295E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 10 + 10 + 10 + 10 + 10 + 10 + 10 + 10 + 10 + 0 + # number of conductors in each domain + 10 + 2 + # External conductor information and dielectric model + 3 conductor type + 1.8000000000000000E-003 conductor_radius + 8.6800000000000002E-003 conductor_width + 7.4099999999999999E-003 conductor_width2 + 4.6899999999999997E-003 conductor_height + 0.0000000000000000 conductor_ox + 0.0000000000000000 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 1.0000000000000000 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor + Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield diff --git a/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec b/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec new file mode 100644 index 0000000..447c0a0 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec @@ -0,0 +1,15 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Dconnector +10 # number of conductors. This model from ESCC 3401/071, 9 pin connector +4 # number of parameters +0.43e-3 # parameter 1: conductor radius: fig 2.1 a,b +1.27e-3 # parameter 2: conductor pitch (separation in x): fig 2.1 a,b +1.09e-3 # parameter 3: conductor separation in y: fig 2.1 a,b +1.37e-3 # parameter 4: offset from conductors to shell:fig 2.1 a,b; 0.5*(G-yseparation-2*rw) +0 # number of frequency dependent parameters +0 # number of transfer impedance models +use_laplace +plot_mesh +plot_potential + diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable new file mode 100644 index 0000000..912ec73 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 4.3700000000000000E-004 + 1.3600000000000001E-003 + 6.4000000000000005E-004 + 49310000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 49310000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 49310000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.04387454E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.75144554E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.0438745443881406E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7514455353100130E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 6.5550000000000005E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 8.5850000000000011E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec new file mode 100644 index 0000000..07ccb53 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 4.370E-04 # parameter 1: inner conductor radius + 1.360E-03 # parameter 2: inner conductor separation + 6.400E-04 # parameter 3: inner dielectric radius + 4.931E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable new file mode 100644 index 0000000..209aa21 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 4.3700000000000000E-004 + 1.5200000000000001E-003 + 7.3999999999999999E-004 + 47620000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 47620000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 47620000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.60482645E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.41626925E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.6048264541882186E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.4162692494937998E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 6.5550000000000005E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 9.5850000000000004E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec new file mode 100644 index 0000000..3a18e95 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 4.370E-04 # parameter 1: inner conductor radius + 1.520E-03 # parameter 2: inner conductor separation + 7.400E-04 # parameter 3: inner dielectric radius + 4.762E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable new file mode 100644 index 0000000..0358a5b --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 4.3700000000000000E-004 + 1.2400000000000000E-003 + 6.1499999999999999E-004 + 47620000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 47620000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 4.3700000000000000E-004 # conductor radius + 47620000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.54363904E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 3.13985155E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.5436390443054571E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.1398515541221902E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 6.5550000000000005E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 8.3350000000000004E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec new file mode 100644 index 0000000..4842d47 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 4.370E-04 # parameter 1: inner conductor radius + 1.240E-03 # parameter 2: inner conductor separation + 6.150E-04 # parameter 3: inner dielectric radius + 4.762E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable new file mode 100644 index 0000000..9495cd0 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 3.4780000000000000E-004 + 1.1600000000000000E-003 + 5.4000000000000001E-004 + 49190000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 3.4780000000000000E-004 # conductor radius + 49190000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 3.4780000000000000E-004 # conductor radius + 49190000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.39732308E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.53028953E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.3973230795281591E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.5302895328092327E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 5.2169999999999994E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 7.1389999999999995E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec new file mode 100644 index 0000000..0751e36 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 3.478E-04 # parameter 1: inner conductor radius + 1.160E-03 # parameter 2: inner conductor separation + 5.400E-04 # parameter 3: inner dielectric radius + 4.919E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable new file mode 100644 index 0000000..b1b86ac --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 3.5680000000000000E-004 + 1.2500000000000000E-003 + 6.2000000000000000E-004 + 39680000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 3.5680000000000000E-004 # conductor radius + 39680000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 3.5680000000000000E-004 # conductor radius + 39680000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.63992181E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.39799312E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.6399218077485889E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.3979931174550182E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 5.3520000000000000E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 7.9840000000000000E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec new file mode 100644 index 0000000..6accf0d --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 3.568E-04 # parameter 1: inner conductor radius + 1.250E-03 # parameter 2: inner conductor separation + 6.200E-04 # parameter 3: inner dielectric radius + 3.968E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable new file mode 100644 index 0000000..ea62cfa --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 3.5680000000000000E-004 + 1.1000000000000001E-003 + 5.4500000000000002E-004 + 39680000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 3.5680000000000000E-004 # conductor radius + 39680000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 3.5680000000000000E-004 # conductor radius + 39680000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 3.99454647E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.78542273E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 3.9945464730750421E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.7854227345977704E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 5.3520000000000000E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 7.2340000000000002E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec new file mode 100644 index 0000000..de15ac8 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 3.568E-04 # parameter 1: inner conductor radius + 1.100E-03 # parameter 2: inner conductor separation + 5.450E-04 # parameter 3: inner dielectric radius + 3.968E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable new file mode 100644 index 0000000..c35e2e2 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 2.5849999999999999E-004 + 9.6000000000000002E-004 + 4.4000000000000002E-004 + 43290000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.5849999999999999E-004 # conductor radius + 43290000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.5849999999999999E-004 # conductor radius + 43290000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.92026968E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.26135990E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.9202696801213545E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.2613599017678514E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 3.8774999999999997E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 5.6924999999999999E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec new file mode 100644 index 0000000..fa67b1a --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 2.585E-04 # parameter 1: inner conductor radius + 9.600E-04 # parameter 2: inner conductor separation + 4.400E-04 # parameter 3: inner dielectric radius + 4.329E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable new file mode 100644 index 0000000..8e4f736 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 2.8210000000000003E-004 + 1.1700000000000000E-003 + 5.6499999999999996E-004 + 33330000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.8210000000000003E-004 # conductor radius + 33330000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.8210000000000003E-004 # conductor radius + 33330000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 5.43407265E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.04754358E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 5.4340726470093728E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.0475435797925892E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 4.2315000000000007E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 7.0604999999999995E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 3.3999999999999999 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec new file mode 100644 index 0000000..e2c9e15 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 2.821E-04 # parameter 1: inner conductor radius + 1.170E-03 # parameter 2: inner conductor separation + 5.650E-04 # parameter 3: inner dielectric radius + 3.333E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 3.400E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable new file mode 100644 index 0000000..77542d3 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable @@ -0,0 +1,90 @@ +v3.0.3 +twisted_pair + 2 # cable type number + 2 # Total Number of conductors + 1 # Number of external conductors + 2 # Total number of domains (including external domain) + 1 # Number of internal conductors + 1 # Number of internal domains + 4 # Number of cable parameters + 2.8210000000000003E-004 + 8.9999999999999998E-004 + 4.4499999999999997E-004 + 33330000.000000000 + 1 # number of frequency dependent dielectric models + # Dielectric filter number 1 + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor impedance models + 1 # Conductor impedance model type + 2.8210000000000003E-004 # conductor radius + 33330000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + 1 # Conductor impedance model type + 2.8210000000000003E-004 # conductor radius + 33330000.000000000 # conductivity + 1.5000000000000000 # Resistance_multiplication_factor + External to domain conductor current transformation matrix, MI + 3 Dimension of MI + 5.00000000E-01 -5.00000000E-01 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 0.00000000E+00 + 1.00000000E+00 1.00000000E+00 1.00000000E+00 + External to domain conductor voltage transformation matrix, MV + 3 Dimension of MV + 1.00000000E+00 -1.00000000E+00 0.00000000E+00 + 5.00000000E-01 5.00000000E-01 -1.00000000E+00 + 0.00000000E+00 0.00000000E+00 1.00000000E+00 + Domain number 1 + 2 # number of conductors + High frequency Per-Unit-length Inductance Matrix, L + 1 Dimension of L + 4.17239383E-07 + High frequency Per-Unit-length Capacitance Matrix, C + 1 Dimension of C + 2.66669471E-11 + Per-Unit-length Impedance Matrix, Z + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 4.1723938277170263E-007 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + Per-Unit-length Admittance Matrix, Y + Matrix of Laplace domain filters + 1 # dimension of Sfilter matrix +Element: 1 1 + 1.0000000000000000 # w normalisation constant + 1 # a order, a coefficients follow below: + 0.0000000000000000 2.6666947129002337E-011 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Local reference conductor for internal domains + 2 + 0 + # number of conductors in each domain + 2 + 2 + # External conductor information and dielectric model + 1 conductor type + 4.2315000000000007E-004 conductor_radius + 0.0000000000000000 conductor_width + 0.0000000000000000 conductor_width2 + 0.0000000000000000 conductor_height + 0.0000000000000000 conductor_ox + 5.8605000000000007E-004 dielectric_radius + 0.0000000000000000 dielectric_width + 0.0000000000000000 dielectric_height + 0.0000000000000000 dielectric_ox + 1.0000000000000000 # w normalisation constant + 0 # a order, a coefficients follow below: + 2.1000000000000001 + 0 # b order, b coefficients follow below: + 1.0000000000000000 + # Conductor labels + Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 + Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec new file mode 100644 index 0000000..5f5e329 --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec @@ -0,0 +1,16 @@ +#MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +Twisted_pair +2 # number of conductors +4 # number of parameters + 2.821E-04 # parameter 1: inner conductor radius + 9.000E-04 # parameter 2: inner conductor separation + 4.450E-04 # parameter 3: inner dielectric radius + 3.333E+07 # parameter 4: conductivity +1 # number of frequency dependent parameters +# Dielectric relative permittivity model follows +1.0 # w normalisation constant +0 # a order, a coefficients follow below: + 2.100E+00 +0 # b order, b coefficients follow below: +1.0 diff --git a/MOD_SPACE_CABLES/CABLE/readme.md b/MOD_SPACE_CABLES/CABLE/readme.md new file mode 100644 index 0000000..555229c --- /dev/null +++ b/MOD_SPACE_CABLES/CABLE/readme.md @@ -0,0 +1 @@ +Directory for individual cable models diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec new file mode 100644 index 0000000..51361db --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec @@ -0,0 +1,89 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +#Transfer impedance terms +2 # number of transfer impedances to include in the model +9 -1 # conductor number and coupling direction for transfer impedance model 1 + +13 -1 # conductor number and coupling direction for transfer impedance model 1 + +# End 1 termination model +0.0 End 1 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +2.0 +50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! inner shields all joined to outer shield at end 2 +0.0 +0.0 +0.0 +0.0 +50.0 ! impedance ground plane to shields +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +50.0 End 2 impedance list +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! inner shields all joined to outer shield at end 2 +0.0 +0.0 +0.0 +0.0 +50.0 ! impedance ground plane to shields +# Type of analysis +AC +log # frequency scale (log or lin) +1e4 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 9 2 +dB # output type (lin or dB) +-10 # order for vector fit model +log # frequency scale (log or lin) +1e4 1e9 100 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec new file mode 100644 index 0000000..e74b915 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec @@ -0,0 +1,89 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground +# cable bundle length (m) +0.1 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +#Transfer impedance terms +2 # number of transfer impedances to include in the model +9 -1 # conductor number and coupling direction for transfer impedance model 1 + +13 -1 # conductor number and coupling direction for transfer impedance model 1 + +# End 1 termination model +0.0 End 1 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +2.0 +50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! inner shields all joined to outer shield at end 1 +0.0 +0.0 +0.0 +0.0 +50.0 ! impedance ground plane to shields +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +50.0 End 2 impedance list +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! inner shields all joined to outer shield at end 2 +0.0 +0.0 +0.0 +0.0 +50.0 ! impedance ground plane to shields +# Type of analysis +AC +log # frequency scale (log or lin) +1e4 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 9 2 +dB # output type (lin or dB) +-10 # order for vector fit model +log # frequency scale (log or lin) +1e4 1e9 100 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib new file mode 100644 index 0000000..660b10c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib @@ -0,0 +1,3532 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-02 +Rdc_c2_e1 3 31 1.279876E-02 +Rdc_c3_e1 4 32 1.279876E-02 +Rdc_c4_e1 5 33 1.279876E-02 +Rdc_c5_e1 6 34 1.279876E-02 +Rdc_c6_e1 7 35 1.279876E-02 +Rdc_c7_e1 8 36 1.279876E-02 +Rdc_c8_e1 9 37 1.279876E-02 +Rdc_c9_e1 10 38 3.350000E-03 +Rdc_c10_e1 11 39 3.350000E-03 +Rdc_c11_e1 12 40 3.350000E-03 +Rdc_c12_e1 13 41 3.350000E-03 +Rdc_c13_e1 14 42 7.000000E-04 +Rdc_c14_e1 15 1 5.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-02 +Rdc_c2_e2 17 44 1.279876E-02 +Rdc_c3_e2 18 45 1.279876E-02 +Rdc_c4_e2 19 46 1.279876E-02 +Rdc_c5_e2 20 47 1.279876E-02 +Rdc_c6_e2 21 48 1.279876E-02 +Rdc_c7_e2 22 49 1.279876E-02 +Rdc_c8_e2 23 50 1.279876E-02 +Rdc_c9_e2 24 51 3.350000E-03 +Rdc_c10_e2 25 52 3.350000E-03 +Rdc_c11_e2 26 53 3.350000E-03 +Rdc_c12_e2 27 54 3.350000E-03 +Rdc_c13_e2 28 55 7.000000E-04 +Rdc_c14_e2 29 1 5.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 2.8446E-08 +RFilter_m_d1_m1_e101 428 429 7.8596E-03 +* +RFilter_m_d1_m1_e102 429 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 432 433 2.8446E-08 +RFilter_m_d1_m1_e201 432 433 7.8596E-03 +* +RFilter_m_d1_m1_e202 433 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 430 1 434 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 435 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 430 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 +RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 +* +RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 +RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 +* +RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 +RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 +* +RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 +RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 +* +RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 451 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 453 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 450 456 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 452 457 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 460 461 2.7136E-08 +RFilter_m_d2_m1_e101 460 461 8.2298E-03 +* +RFilter_m_d2_m1_e102 461 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 464 465 2.7136E-08 +RFilter_m_d2_m1_e201 464 465 8.2298E-03 +* +RFilter_m_d2_m1_e202 465 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 462 1 466 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 458 1 467 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 462 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 458 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 +RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 +* +RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 +RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 +* +RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 +RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 +* +RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 +RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 +* +RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 483 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 485 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 482 486 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 484 487 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 490 491 1.8924E-08 +RFilter_m_d3_m1_e101 490 491 1.1813E-02 +* +RFilter_m_d3_m1_e102 491 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 494 495 1.8924E-08 +RFilter_m_d3_m1_e201 494 495 1.1813E-02 +* +RFilter_m_d3_m1_e202 495 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 492 1 496 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 488 1 497 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 492 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 488 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 +RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 +* +RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 +RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 +* +RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 +RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 +* +RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 +RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 +* +RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 513 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 515 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 512 516 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 514 517 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 520 521 2.7136E-08 +RFilter_m_d4_m1_e101 520 521 8.2298E-03 +* +RFilter_m_d4_m1_e102 521 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 524 525 2.7136E-08 +RFilter_m_d4_m1_e201 524 525 8.2298E-03 +* +RFilter_m_d4_m1_e202 525 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 522 1 526 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 518 1 527 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 522 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 518 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 +RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 +* +RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 +RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 +* +RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 +RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 +* +RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 +RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 +* +RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 543 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 545 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 542 546 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 544 547 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 550 551 2.8446E-08 +RFilter_m_d5_m1_e101 550 551 7.8596E-03 +* +RFilter_m_d5_m1_e102 551 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 554 555 2.8446E-08 +RFilter_m_d5_m1_e201 554 555 7.8596E-03 +* +RFilter_m_d5_m1_e202 555 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 552 1 556 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 548 1 557 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 552 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 548 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 +RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 +* +RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 +RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 +* +RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 +RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 +* +RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 +RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 +* +RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 573 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 575 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 572 576 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 574 577 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 580 581 2.7136E-08 +RFilter_m_d6_m1_e101 580 581 8.2298E-03 +* +RFilter_m_d6_m1_e102 581 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 584 585 2.7136E-08 +RFilter_m_d6_m1_e201 584 585 8.2298E-03 +* +RFilter_m_d6_m1_e202 585 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 582 1 586 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 578 1 587 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 582 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 578 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 +RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 +* +RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 +RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 +* +RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 +RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 +* +RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 +RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 +* +RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 602 606 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 604 607 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 610 611 1.8924E-08 +RFilter_m_d7_m1_e101 610 611 1.1813E-02 +* +RFilter_m_d7_m1_e102 611 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 614 615 1.8924E-08 +RFilter_m_d7_m1_e201 614 615 1.1813E-02 +* +RFilter_m_d7_m1_e202 615 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 612 1 616 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 608 1 617 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 612 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 608 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 +RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 +* +RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 +RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 +* +RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 +RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 +* +RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 +RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 +* +RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 633 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 635 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 632 636 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 634 637 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 640 641 2.7136E-08 +RFilter_m_d8_m1_e101 640 641 8.2298E-03 +* +RFilter_m_d8_m1_e102 641 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 644 645 2.7136E-08 +RFilter_m_d8_m1_e201 644 645 8.2298E-03 +* +RFilter_m_d8_m1_e202 645 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 642 1 646 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 638 1 647 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 642 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 638 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 +RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 +* +RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 +RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 +* +RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 +RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 +* +RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 +RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 +* +RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 666 +Vmeas_mode_decomp_d9_c2_e1 65 670 +Vmeas_mode_decomp_d9_c3_e1 66 674 +Vmeas_mode_decomp_d9_c4_e1 67 678 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 686 +Vmeas_mode_decomp_d9_c2_e2 247 690 +Vmeas_mode_decomp_d9_c3_e2 248 694 +Vmeas_mode_decomp_d9_c4_e2 249 698 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 662 710 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 682 711 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 714 715 2.3026E-08 +RFilter_m_d9_m1_e101 714 715 9.6704E-03 +* +RFilter_m_d9_m1_e102 715 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 718 719 2.3026E-08 +RFilter_m_d9_m1_e201 718 719 9.6704E-03 +* +RFilter_m_d9_m1_e202 719 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 716 1 720 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 712 1 721 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 716 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 712 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 +RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 +* +RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 +RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 +* +RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 +RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 +* +RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 +RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 +* +RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 663 736 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 683 737 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 740 741 3.1648E-08 +RFilter_m_d9_m2_e101 740 741 7.1113E-03 +* +RFilter_m_d9_m2_e102 741 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 744 745 3.1648E-08 +RFilter_m_d9_m2_e201 744 745 7.1113E-03 +* +RFilter_m_d9_m2_e202 745 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 742 1 746 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 738 1 747 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 742 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 738 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 +RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 +* +RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 +RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 +* +RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 +RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 +* +RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 +RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 +* +RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 664 762 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 684 763 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 766 767 3.5000E-08 +RFilter_m_d9_m3_e101 766 767 6.3646E-03 +* +RFilter_m_d9_m3_e102 767 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 770 771 3.5000E-08 +RFilter_m_d9_m3_e201 770 771 6.3646E-03 +* +RFilter_m_d9_m3_e202 771 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 768 1 772 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 764 1 773 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 768 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 764 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 +RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 +* +RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 +RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 +* +RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 +RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 +* +RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 +RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 +* +RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 665 788 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 685 789 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 792 793 3.5000E-08 +RFilter_m_d9_m4_e101 792 793 6.3646E-03 +* +RFilter_m_d9_m4_e102 793 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 796 797 3.5000E-08 +RFilter_m_d9_m4_e201 796 797 6.3646E-03 +* +RFilter_m_d9_m4_e202 797 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 794 1 798 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 790 1 799 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 794 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 790 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 +RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 +* +RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 +RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 +* +RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 +RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 +* +RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 +RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 +* +RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 815 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 817 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 814 818 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 816 819 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 818 1 820 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 819 1 821 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 821 1 822 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 820 1 823 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 821 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 820 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 +E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 +E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 +RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 +* +RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 +RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 +* +RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib new file mode 100644 index 0000000..ef23eb5 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib @@ -0,0 +1,3532 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-02 +Rdc_c2_e1 3 31 1.279876E-02 +Rdc_c3_e1 4 32 1.279876E-02 +Rdc_c4_e1 5 33 1.279876E-02 +Rdc_c5_e1 6 34 1.279876E-02 +Rdc_c6_e1 7 35 1.279876E-02 +Rdc_c7_e1 8 36 1.279876E-02 +Rdc_c8_e1 9 37 1.279876E-02 +Rdc_c9_e1 10 38 3.350000E-03 +Rdc_c10_e1 11 39 3.350000E-03 +Rdc_c11_e1 12 40 3.350000E-03 +Rdc_c12_e1 13 41 3.350000E-03 +Rdc_c13_e1 14 42 7.000000E-04 +Rdc_c14_e1 15 1 5.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-02 +Rdc_c2_e2 17 44 1.279876E-02 +Rdc_c3_e2 18 45 1.279876E-02 +Rdc_c4_e2 19 46 1.279876E-02 +Rdc_c5_e2 20 47 1.279876E-02 +Rdc_c6_e2 21 48 1.279876E-02 +Rdc_c7_e2 22 49 1.279876E-02 +Rdc_c8_e2 23 50 1.279876E-02 +Rdc_c9_e2 24 51 3.350000E-03 +Rdc_c10_e2 25 52 3.350000E-03 +Rdc_c11_e2 26 53 3.350000E-03 +Rdc_c12_e2 27 54 3.350000E-03 +Rdc_c13_e2 28 55 7.000000E-04 +Rdc_c14_e2 29 1 5.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 2.8446E-08 +RFilter_m_d1_m1_e101 428 429 7.8596E-03 +* +RFilter_m_d1_m1_e102 429 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 432 433 2.8446E-08 +RFilter_m_d1_m1_e201 432 433 7.8596E-03 +* +RFilter_m_d1_m1_e202 433 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 430 1 434 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 435 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 430 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 +RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 +* +RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 +RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 +* +RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 +RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 +* +RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 +RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 +* +RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 451 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 453 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 450 456 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 452 457 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 460 461 2.7136E-08 +RFilter_m_d2_m1_e101 460 461 8.2298E-03 +* +RFilter_m_d2_m1_e102 461 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 464 465 2.7136E-08 +RFilter_m_d2_m1_e201 464 465 8.2298E-03 +* +RFilter_m_d2_m1_e202 465 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 462 1 466 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 458 1 467 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 462 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 458 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 +RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 +* +RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 +RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 +* +RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 +RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 +* +RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 +RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 +* +RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 483 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 485 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 482 486 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 484 487 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 490 491 1.8924E-08 +RFilter_m_d3_m1_e101 490 491 1.1813E-02 +* +RFilter_m_d3_m1_e102 491 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 494 495 1.8924E-08 +RFilter_m_d3_m1_e201 494 495 1.1813E-02 +* +RFilter_m_d3_m1_e202 495 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 492 1 496 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 488 1 497 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 492 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 488 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 +RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 +* +RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 +RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 +* +RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 +RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 +* +RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 +RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 +* +RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 513 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 515 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 512 516 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 514 517 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 520 521 2.7136E-08 +RFilter_m_d4_m1_e101 520 521 8.2298E-03 +* +RFilter_m_d4_m1_e102 521 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 524 525 2.7136E-08 +RFilter_m_d4_m1_e201 524 525 8.2298E-03 +* +RFilter_m_d4_m1_e202 525 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 522 1 526 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 518 1 527 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 522 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 518 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 +RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 +* +RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 +RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 +* +RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 +RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 +* +RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 +RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 +* +RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 543 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 545 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 542 546 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 544 547 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 550 551 2.8446E-08 +RFilter_m_d5_m1_e101 550 551 7.8596E-03 +* +RFilter_m_d5_m1_e102 551 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 554 555 2.8446E-08 +RFilter_m_d5_m1_e201 554 555 7.8596E-03 +* +RFilter_m_d5_m1_e202 555 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 552 1 556 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 548 1 557 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 552 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 548 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 +RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 +* +RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 +RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 +* +RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 +RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 +* +RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 +RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 +* +RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 573 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 575 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 572 576 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 574 577 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 580 581 2.7136E-08 +RFilter_m_d6_m1_e101 580 581 8.2298E-03 +* +RFilter_m_d6_m1_e102 581 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 584 585 2.7136E-08 +RFilter_m_d6_m1_e201 584 585 8.2298E-03 +* +RFilter_m_d6_m1_e202 585 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 582 1 586 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 578 1 587 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 582 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 578 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 +RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 +* +RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 +RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 +* +RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 +RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 +* +RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 +RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 +* +RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 602 606 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 604 607 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 610 611 1.8924E-08 +RFilter_m_d7_m1_e101 610 611 1.1813E-02 +* +RFilter_m_d7_m1_e102 611 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 614 615 1.8924E-08 +RFilter_m_d7_m1_e201 614 615 1.1813E-02 +* +RFilter_m_d7_m1_e202 615 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 612 1 616 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 608 1 617 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 612 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 608 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 +RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 +* +RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 +RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 +* +RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 +RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 +* +RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 +RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 +* +RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 633 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 635 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 632 636 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 634 637 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 640 641 2.7136E-08 +RFilter_m_d8_m1_e101 640 641 8.2298E-03 +* +RFilter_m_d8_m1_e102 641 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 644 645 2.7136E-08 +RFilter_m_d8_m1_e201 644 645 8.2298E-03 +* +RFilter_m_d8_m1_e202 645 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 642 1 646 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 638 1 647 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 642 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 638 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 +RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 +* +RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 +RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 +* +RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 +RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 +* +RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 +RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 +* +RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 666 +Vmeas_mode_decomp_d9_c2_e1 65 670 +Vmeas_mode_decomp_d9_c3_e1 66 674 +Vmeas_mode_decomp_d9_c4_e1 67 678 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 686 +Vmeas_mode_decomp_d9_c2_e2 247 690 +Vmeas_mode_decomp_d9_c3_e2 248 694 +Vmeas_mode_decomp_d9_c4_e2 249 698 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 662 710 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 682 711 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 714 715 2.3026E-08 +RFilter_m_d9_m1_e101 714 715 9.6704E-03 +* +RFilter_m_d9_m1_e102 715 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 718 719 2.3026E-08 +RFilter_m_d9_m1_e201 718 719 9.6704E-03 +* +RFilter_m_d9_m1_e202 719 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 716 1 720 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 712 1 721 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 716 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 712 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 +RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 +* +RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 +RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 +* +RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 +RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 +* +RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 +RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 +* +RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 663 736 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 683 737 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 740 741 3.1648E-08 +RFilter_m_d9_m2_e101 740 741 7.1113E-03 +* +RFilter_m_d9_m2_e102 741 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 744 745 3.1648E-08 +RFilter_m_d9_m2_e201 744 745 7.1113E-03 +* +RFilter_m_d9_m2_e202 745 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 742 1 746 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 738 1 747 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 742 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 738 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 +RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 +* +RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 +RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 +* +RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 +RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 +* +RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 +RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 +* +RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 664 762 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 684 763 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 766 767 3.5000E-08 +RFilter_m_d9_m3_e101 766 767 6.3646E-03 +* +RFilter_m_d9_m3_e102 767 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 770 771 3.5000E-08 +RFilter_m_d9_m3_e201 770 771 6.3646E-03 +* +RFilter_m_d9_m3_e202 771 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 768 1 772 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 764 1 773 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 768 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 764 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 +RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 +* +RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 +RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 +* +RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 +RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 +* +RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 +RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 +* +RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 665 788 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 685 789 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 792 793 3.5000E-08 +RFilter_m_d9_m4_e101 792 793 6.3646E-03 +* +RFilter_m_d9_m4_e102 793 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 796 797 3.5000E-08 +RFilter_m_d9_m4_e201 796 797 6.3646E-03 +* +RFilter_m_d9_m4_e202 797 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 794 1 798 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 790 1 799 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 794 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 790 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 +RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 +* +RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 +RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 +* +RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 +RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 +* +RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 +RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 +* +RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 815 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 817 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 814 818 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 816 819 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 818 1 820 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 819 1 821 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 821 1 822 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 820 1 823 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 821 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 820 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 +E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 +E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 +RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 +* +RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 +RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 +* +RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib new file mode 100644 index 0000000..bf02ce3 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib @@ -0,0 +1,3532 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-02 +Rdc_c2_e1 3 31 1.279876E-02 +Rdc_c3_e1 4 32 1.279876E-02 +Rdc_c4_e1 5 33 1.279876E-02 +Rdc_c5_e1 6 34 1.279876E-02 +Rdc_c6_e1 7 35 1.279876E-02 +Rdc_c7_e1 8 36 1.279876E-02 +Rdc_c8_e1 9 37 1.279876E-02 +Rdc_c9_e1 10 38 3.350000E-03 +Rdc_c10_e1 11 39 3.350000E-03 +Rdc_c11_e1 12 40 3.350000E-03 +Rdc_c12_e1 13 41 3.350000E-03 +Rdc_c13_e1 14 42 7.000000E-04 +Rdc_c14_e1 15 1 5.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-02 +Rdc_c2_e2 17 44 1.279876E-02 +Rdc_c3_e2 18 45 1.279876E-02 +Rdc_c4_e2 19 46 1.279876E-02 +Rdc_c5_e2 20 47 1.279876E-02 +Rdc_c6_e2 21 48 1.279876E-02 +Rdc_c7_e2 22 49 1.279876E-02 +Rdc_c8_e2 23 50 1.279876E-02 +Rdc_c9_e2 24 51 3.350000E-03 +Rdc_c10_e2 25 52 3.350000E-03 +Rdc_c11_e2 26 53 3.350000E-03 +Rdc_c12_e2 27 54 3.350000E-03 +Rdc_c13_e2 28 55 7.000000E-04 +Rdc_c14_e2 29 1 5.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 2.8446E-08 +RFilter_m_d1_m1_e101 428 429 7.8596E-03 +* +RFilter_m_d1_m1_e102 429 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 432 433 2.8446E-08 +RFilter_m_d1_m1_e201 432 433 7.8596E-03 +* +RFilter_m_d1_m1_e202 433 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 430 1 434 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 426 1 435 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 430 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 +RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 +* +RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 +RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 +* +RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 +RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 +* +RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 +RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 +* +RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 451 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 453 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 450 456 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 452 457 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 460 461 2.7136E-08 +RFilter_m_d2_m1_e101 460 461 8.2298E-03 +* +RFilter_m_d2_m1_e102 461 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 464 465 2.7136E-08 +RFilter_m_d2_m1_e201 464 465 8.2298E-03 +* +RFilter_m_d2_m1_e202 465 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 462 1 466 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 458 1 467 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 462 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 458 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 +RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 +* +RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 +RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 +* +RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 +RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 +* +RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 +RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 +* +RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 483 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 485 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 482 486 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 484 487 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 490 491 1.8924E-08 +RFilter_m_d3_m1_e101 490 491 1.1813E-02 +* +RFilter_m_d3_m1_e102 491 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 494 495 1.8924E-08 +RFilter_m_d3_m1_e201 494 495 1.1813E-02 +* +RFilter_m_d3_m1_e202 495 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 492 1 496 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 488 1 497 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 492 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 488 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 +RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 +* +RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 +RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 +* +RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 +RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 +* +RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 +RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 +* +RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 513 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 515 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 512 516 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 514 517 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 520 521 2.7136E-08 +RFilter_m_d4_m1_e101 520 521 8.2298E-03 +* +RFilter_m_d4_m1_e102 521 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 524 525 2.7136E-08 +RFilter_m_d4_m1_e201 524 525 8.2298E-03 +* +RFilter_m_d4_m1_e202 525 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d4_m1_e1 522 1 526 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d4_m1_e2 518 1 527 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 522 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 518 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 +RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 +* +RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 +RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 +* +RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 +RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 +* +RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 +RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 +* +RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 543 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 545 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 542 546 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 544 547 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 550 551 2.8446E-08 +RFilter_m_d5_m1_e101 550 551 7.8596E-03 +* +RFilter_m_d5_m1_e102 551 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 554 555 2.8446E-08 +RFilter_m_d5_m1_e201 554 555 7.8596E-03 +* +RFilter_m_d5_m1_e202 555 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d5_m1_e1 552 1 556 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d5_m1_e2 548 1 557 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 552 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 548 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 +RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 +* +RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 +RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 +* +RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 +RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 +* +RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 +RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 +* +RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 573 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 575 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 572 576 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 574 577 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 580 581 2.7136E-08 +RFilter_m_d6_m1_e101 580 581 8.2298E-03 +* +RFilter_m_d6_m1_e102 581 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 584 585 2.7136E-08 +RFilter_m_d6_m1_e201 584 585 8.2298E-03 +* +RFilter_m_d6_m1_e202 585 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d6_m1_e1 582 1 586 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d6_m1_e2 578 1 587 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 582 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 578 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 +RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 +* +RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 +RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 +* +RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 +RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 +* +RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 +RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 +* +RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 602 606 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 604 607 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 610 611 1.8924E-08 +RFilter_m_d7_m1_e101 610 611 1.1813E-02 +* +RFilter_m_d7_m1_e102 611 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 614 615 1.8924E-08 +RFilter_m_d7_m1_e201 614 615 1.1813E-02 +* +RFilter_m_d7_m1_e202 615 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d7_m1_e1 612 1 616 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d7_m1_e2 608 1 617 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 612 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 608 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 +RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 +* +RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 +RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 +* +RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 +RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 +* +RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 +RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 +* +RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 633 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 635 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 632 636 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 634 637 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 640 641 2.7136E-08 +RFilter_m_d8_m1_e101 640 641 8.2298E-03 +* +RFilter_m_d8_m1_e102 641 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 644 645 2.7136E-08 +RFilter_m_d8_m1_e201 644 645 8.2298E-03 +* +RFilter_m_d8_m1_e202 645 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d8_m1_e1 642 1 646 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d8_m1_e2 638 1 647 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 642 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 638 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 +RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 +* +RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 +RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 +* +RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 +RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 +* +RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 +RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 +* +RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 666 +Vmeas_mode_decomp_d9_c2_e1 65 670 +Vmeas_mode_decomp_d9_c3_e1 66 674 +Vmeas_mode_decomp_d9_c4_e1 67 678 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 686 +Vmeas_mode_decomp_d9_c2_e2 247 690 +Vmeas_mode_decomp_d9_c3_e2 248 694 +Vmeas_mode_decomp_d9_c4_e2 249 698 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 662 710 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 682 711 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 714 715 2.3026E-08 +RFilter_m_d9_m1_e101 714 715 9.6704E-03 +* +RFilter_m_d9_m1_e102 715 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 718 719 2.3026E-08 +RFilter_m_d9_m1_e201 718 719 9.6704E-03 +* +RFilter_m_d9_m1_e202 719 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m1_e1 716 1 720 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m1_e2 712 1 721 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 716 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 712 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 +RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 +* +RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 +RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 +* +RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 +RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 +* +RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 +RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 +* +RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 663 736 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 683 737 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 740 741 3.1648E-08 +RFilter_m_d9_m2_e101 740 741 7.1113E-03 +* +RFilter_m_d9_m2_e102 741 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 744 745 3.1648E-08 +RFilter_m_d9_m2_e201 744 745 7.1113E-03 +* +RFilter_m_d9_m2_e202 745 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m2_e1 742 1 746 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m2_e2 738 1 747 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 742 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 738 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 +RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 +* +RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 +RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 +* +RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 +RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 +* +RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 +RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 +* +RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 664 762 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 684 763 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 766 767 3.5000E-08 +RFilter_m_d9_m3_e101 766 767 6.3646E-03 +* +RFilter_m_d9_m3_e102 767 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 770 771 3.5000E-08 +RFilter_m_d9_m3_e201 770 771 6.3646E-03 +* +RFilter_m_d9_m3_e202 771 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m3_e1 768 1 772 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m3_e2 764 1 773 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 768 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 764 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 +RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 +* +RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 +RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 +* +RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 +RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 +* +RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 +RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 +* +RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 665 788 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 685 789 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 792 793 3.5000E-08 +RFilter_m_d9_m4_e101 792 793 6.3646E-03 +* +RFilter_m_d9_m4_e102 793 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 796 797 3.5000E-08 +RFilter_m_d9_m4_e201 796 797 6.3646E-03 +* +RFilter_m_d9_m4_e202 797 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m4_e1 794 1 798 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m4_e2 790 1 799 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 794 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 790 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 +RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 +* +RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 +RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 +* +RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 +RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 +* +RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 +RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 +* +RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 815 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 817 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 814 818 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 816 819 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 818 1 820 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 819 1 821 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d10_m1_e1 821 1 822 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay line for negative z propagation +* +T_mz_d10_m1_e2 820 1 823 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 821 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 820 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 +E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 +E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LEN= 1.000000E-01 ++ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LEN= 1.000000E-01 ++ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LEN= 1.000000E-01 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LEN= 1.000000E-01 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LEN= 1.000000E-01 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LEN= 1.000000E-01 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LEN= 1.000000E-01 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LEN= 1.000000E-01 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 +RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 +* +RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 +RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 +* +RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LEN= 1.000000E-01 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LEN= 1.000000E-01 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib new file mode 100644 index 0000000..c3bf8d4 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib @@ -0,0 +1,3778 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-01 +Rdc_c2_e1 3 31 1.279876E-01 +Rdc_c3_e1 4 32 1.279876E-01 +Rdc_c4_e1 5 33 1.279876E-01 +Rdc_c5_e1 6 34 1.279876E-01 +Rdc_c6_e1 7 35 1.279876E-01 +Rdc_c7_e1 8 36 1.279876E-01 +Rdc_c8_e1 9 37 1.279876E-01 +Rdc_c9_e1 10 38 3.350000E-02 +Rdc_c10_e1 11 39 3.350000E-02 +Rdc_c11_e1 12 40 3.350000E-02 +Rdc_c12_e1 13 41 3.350000E-02 +Rdc_c13_e1 14 42 7.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-01 +Rdc_c2_e2 17 44 1.279876E-01 +Rdc_c3_e2 18 45 1.279876E-01 +Rdc_c4_e2 19 46 1.279876E-01 +Rdc_c5_e2 20 47 1.279876E-01 +Rdc_c6_e2 21 48 1.279876E-01 +Rdc_c7_e2 22 49 1.279876E-01 +Rdc_c8_e2 23 50 1.279876E-01 +Rdc_c9_e2 24 51 3.350000E-02 +Rdc_c10_e2 25 52 3.350000E-02 +Rdc_c11_e2 26 53 3.350000E-02 +Rdc_c12_e2 27 54 3.350000E-02 +Rdc_c13_e2 28 55 7.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.8568E-10 +RFilter_m_d1_m1_e101 428 429 1.2368E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6257E-08 +RFilter_m_d1_m1_e102 429 430 3.1391E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.8568E-10 +RFilter_m_d1_m1_e201 433 434 1.2368E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6257E-08 +RFilter_m_d1_m1_e202 434 435 3.1391E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.5880E-10 +RFilter_m_d2_m1_e101 466 467 1.2988E-01 +* +CFilter_m_d2_m1_e102 467 468 3.4396E-08 +RFilter_m_d2_m1_e102 467 468 3.3035E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.5880E-10 +RFilter_m_d2_m1_e201 471 472 1.2988E-01 +* +CFilter_m_d2_m1_e202 472 473 3.4396E-08 +RFilter_m_d2_m1_e202 472 473 3.3035E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.8944E-10 +RFilter_m_d3_m1_e101 502 503 1.9122E-01 +* +CFilter_m_d3_m1_e102 503 504 2.2742E-08 +RFilter_m_d3_m1_e102 503 504 5.0303E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.8944E-10 +RFilter_m_d3_m1_e201 507 508 1.9122E-01 +* +CFilter_m_d3_m1_e202 508 509 2.2742E-08 +RFilter_m_d3_m1_e202 508 509 5.0303E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 +RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 +RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 +RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 +RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.5880E-10 +RFilter_m_d4_m1_e101 538 539 1.2988E-01 +* +CFilter_m_d4_m1_e102 539 540 3.4396E-08 +RFilter_m_d4_m1_e102 539 540 3.3035E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.5880E-10 +RFilter_m_d4_m1_e201 543 544 1.2988E-01 +* +CFilter_m_d4_m1_e202 544 545 3.4396E-08 +RFilter_m_d4_m1_e202 544 545 3.3035E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.8568E-10 +RFilter_m_d5_m1_e101 574 575 1.2368E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6257E-08 +RFilter_m_d5_m1_e102 575 576 3.1391E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.8568E-10 +RFilter_m_d5_m1_e201 579 580 1.2368E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6257E-08 +RFilter_m_d5_m1_e202 580 581 3.1391E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.5880E-10 +RFilter_m_d6_m1_e101 610 611 1.2988E-01 +* +CFilter_m_d6_m1_e102 611 612 3.4396E-08 +RFilter_m_d6_m1_e102 611 612 3.3035E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.5880E-10 +RFilter_m_d6_m1_e201 615 616 1.2988E-01 +* +CFilter_m_d6_m1_e202 616 617 3.4396E-08 +RFilter_m_d6_m1_e202 616 617 3.3035E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.8944E-10 +RFilter_m_d7_m1_e101 646 647 1.9122E-01 +* +CFilter_m_d7_m1_e102 647 648 2.2742E-08 +RFilter_m_d7_m1_e102 647 648 5.0303E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.8944E-10 +RFilter_m_d7_m1_e201 651 652 1.9122E-01 +* +CFilter_m_d7_m1_e202 652 653 2.2742E-08 +RFilter_m_d7_m1_e202 652 653 5.0303E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 +RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 +RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 +RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 +RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.5880E-10 +RFilter_m_d8_m1_e101 682 683 1.2988E-01 +* +CFilter_m_d8_m1_e102 683 684 3.4396E-08 +RFilter_m_d8_m1_e102 683 684 3.3035E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.5880E-10 +RFilter_m_d8_m1_e201 687 688 1.2988E-01 +* +CFilter_m_d8_m1_e202 688 689 3.4396E-08 +RFilter_m_d8_m1_e202 688 689 3.3035E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 4.7432E-10 +RFilter_m_d9_m1_e101 762 763 1.5432E-01 +* +CFilter_m_d9_m1_e102 763 764 2.8566E-08 +RFilter_m_d9_m1_e102 763 764 3.9632E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 4.7432E-10 +RFilter_m_d9_m1_e201 767 768 1.5432E-01 +* +CFilter_m_d9_m1_e202 768 769 2.8566E-08 +RFilter_m_d9_m1_e202 768 769 3.9632E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 +RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 +* +CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 +RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 +RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 +* +CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 +RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 +RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 +* +CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 +RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 +RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 +* +CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 +RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 6.5092E-10 +RFilter_m_d9_m2_e101 794 795 1.1110E-01 +* +CFilter_m_d9_m2_e102 795 796 4.0757E-08 +RFilter_m_d9_m2_e102 795 796 2.8236E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 6.5092E-10 +RFilter_m_d9_m2_e201 799 800 1.1110E-01 +* +CFilter_m_d9_m2_e202 800 801 4.0757E-08 +RFilter_m_d9_m2_e202 800 801 2.8236E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 +RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 +* +CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 +RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 +RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 +* +CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 +RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 +RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 +* +CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 +RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 +RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 +* +CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 +RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 7.2089E-10 +RFilter_m_d9_m3_e101 826 827 9.9202E-02 +* +CFilter_m_d9_m3_e102 827 828 4.5618E-08 +RFilter_m_d9_m3_e102 827 828 2.4727E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 7.2089E-10 +RFilter_m_d9_m3_e201 831 832 9.9202E-02 +* +CFilter_m_d9_m3_e202 832 833 4.5618E-08 +RFilter_m_d9_m3_e202 832 833 2.4727E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 +RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 +RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 +RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 +RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 +RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 +RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 +RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 +RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 7.2089E-10 +RFilter_m_d9_m4_e101 858 859 9.9202E-02 +* +CFilter_m_d9_m4_e102 859 860 4.5618E-08 +RFilter_m_d9_m4_e102 859 860 2.4727E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 7.2089E-10 +RFilter_m_d9_m4_e201 863 864 9.9202E-02 +* +CFilter_m_d9_m4_e202 864 865 4.5618E-08 +RFilter_m_d9_m4_e202 864 865 2.4727E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 +RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 +RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 +RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 +RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 +RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 +RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 +RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 +RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib new file mode 100644 index 0000000..092bbc8 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib @@ -0,0 +1,3778 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-01 +Rdc_c2_e1 3 31 1.279876E-01 +Rdc_c3_e1 4 32 1.279876E-01 +Rdc_c4_e1 5 33 1.279876E-01 +Rdc_c5_e1 6 34 1.279876E-01 +Rdc_c6_e1 7 35 1.279876E-01 +Rdc_c7_e1 8 36 1.279876E-01 +Rdc_c8_e1 9 37 1.279876E-01 +Rdc_c9_e1 10 38 3.350000E-02 +Rdc_c10_e1 11 39 3.350000E-02 +Rdc_c11_e1 12 40 3.350000E-02 +Rdc_c12_e1 13 41 3.350000E-02 +Rdc_c13_e1 14 42 7.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-01 +Rdc_c2_e2 17 44 1.279876E-01 +Rdc_c3_e2 18 45 1.279876E-01 +Rdc_c4_e2 19 46 1.279876E-01 +Rdc_c5_e2 20 47 1.279876E-01 +Rdc_c6_e2 21 48 1.279876E-01 +Rdc_c7_e2 22 49 1.279876E-01 +Rdc_c8_e2 23 50 1.279876E-01 +Rdc_c9_e2 24 51 3.350000E-02 +Rdc_c10_e2 25 52 3.350000E-02 +Rdc_c11_e2 26 53 3.350000E-02 +Rdc_c12_e2 27 54 3.350000E-02 +Rdc_c13_e2 28 55 7.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.8568E-10 +RFilter_m_d1_m1_e101 428 429 1.2368E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6257E-08 +RFilter_m_d1_m1_e102 429 430 3.1391E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.8568E-10 +RFilter_m_d1_m1_e201 433 434 1.2368E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6257E-08 +RFilter_m_d1_m1_e202 434 435 3.1391E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.5880E-10 +RFilter_m_d2_m1_e101 466 467 1.2988E-01 +* +CFilter_m_d2_m1_e102 467 468 3.4396E-08 +RFilter_m_d2_m1_e102 467 468 3.3035E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.5880E-10 +RFilter_m_d2_m1_e201 471 472 1.2988E-01 +* +CFilter_m_d2_m1_e202 472 473 3.4396E-08 +RFilter_m_d2_m1_e202 472 473 3.3035E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.8944E-10 +RFilter_m_d3_m1_e101 502 503 1.9122E-01 +* +CFilter_m_d3_m1_e102 503 504 2.2742E-08 +RFilter_m_d3_m1_e102 503 504 5.0303E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.8944E-10 +RFilter_m_d3_m1_e201 507 508 1.9122E-01 +* +CFilter_m_d3_m1_e202 508 509 2.2742E-08 +RFilter_m_d3_m1_e202 508 509 5.0303E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 +RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 +RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 +RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 +RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.5880E-10 +RFilter_m_d4_m1_e101 538 539 1.2988E-01 +* +CFilter_m_d4_m1_e102 539 540 3.4396E-08 +RFilter_m_d4_m1_e102 539 540 3.3035E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.5880E-10 +RFilter_m_d4_m1_e201 543 544 1.2988E-01 +* +CFilter_m_d4_m1_e202 544 545 3.4396E-08 +RFilter_m_d4_m1_e202 544 545 3.3035E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.8568E-10 +RFilter_m_d5_m1_e101 574 575 1.2368E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6257E-08 +RFilter_m_d5_m1_e102 575 576 3.1391E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.8568E-10 +RFilter_m_d5_m1_e201 579 580 1.2368E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6257E-08 +RFilter_m_d5_m1_e202 580 581 3.1391E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.5880E-10 +RFilter_m_d6_m1_e101 610 611 1.2988E-01 +* +CFilter_m_d6_m1_e102 611 612 3.4396E-08 +RFilter_m_d6_m1_e102 611 612 3.3035E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.5880E-10 +RFilter_m_d6_m1_e201 615 616 1.2988E-01 +* +CFilter_m_d6_m1_e202 616 617 3.4396E-08 +RFilter_m_d6_m1_e202 616 617 3.3035E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.8944E-10 +RFilter_m_d7_m1_e101 646 647 1.9122E-01 +* +CFilter_m_d7_m1_e102 647 648 2.2742E-08 +RFilter_m_d7_m1_e102 647 648 5.0303E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.8944E-10 +RFilter_m_d7_m1_e201 651 652 1.9122E-01 +* +CFilter_m_d7_m1_e202 652 653 2.2742E-08 +RFilter_m_d7_m1_e202 652 653 5.0303E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 +RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 +RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 +RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 +RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.5880E-10 +RFilter_m_d8_m1_e101 682 683 1.2988E-01 +* +CFilter_m_d8_m1_e102 683 684 3.4396E-08 +RFilter_m_d8_m1_e102 683 684 3.3035E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.5880E-10 +RFilter_m_d8_m1_e201 687 688 1.2988E-01 +* +CFilter_m_d8_m1_e202 688 689 3.4396E-08 +RFilter_m_d8_m1_e202 688 689 3.3035E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 4.7432E-10 +RFilter_m_d9_m1_e101 762 763 1.5432E-01 +* +CFilter_m_d9_m1_e102 763 764 2.8566E-08 +RFilter_m_d9_m1_e102 763 764 3.9632E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 4.7432E-10 +RFilter_m_d9_m1_e201 767 768 1.5432E-01 +* +CFilter_m_d9_m1_e202 768 769 2.8566E-08 +RFilter_m_d9_m1_e202 768 769 3.9632E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 +RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 +* +CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 +RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 +RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 +* +CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 +RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 +RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 +* +CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 +RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 +RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 +* +CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 +RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 6.5092E-10 +RFilter_m_d9_m2_e101 794 795 1.1110E-01 +* +CFilter_m_d9_m2_e102 795 796 4.0757E-08 +RFilter_m_d9_m2_e102 795 796 2.8236E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 6.5092E-10 +RFilter_m_d9_m2_e201 799 800 1.1110E-01 +* +CFilter_m_d9_m2_e202 800 801 4.0757E-08 +RFilter_m_d9_m2_e202 800 801 2.8236E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 +RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 +* +CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 +RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 +RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 +* +CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 +RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 +RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 +* +CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 +RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 +RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 +* +CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 +RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 7.2089E-10 +RFilter_m_d9_m3_e101 826 827 9.9202E-02 +* +CFilter_m_d9_m3_e102 827 828 4.5618E-08 +RFilter_m_d9_m3_e102 827 828 2.4727E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 7.2089E-10 +RFilter_m_d9_m3_e201 831 832 9.9202E-02 +* +CFilter_m_d9_m3_e202 832 833 4.5618E-08 +RFilter_m_d9_m3_e202 832 833 2.4727E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 +RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 +RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 +RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 +RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 +RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 +RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 +RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 +RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 7.2089E-10 +RFilter_m_d9_m4_e101 858 859 9.9202E-02 +* +CFilter_m_d9_m4_e102 859 860 4.5618E-08 +RFilter_m_d9_m4_e102 859 860 2.4727E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 7.2089E-10 +RFilter_m_d9_m4_e201 863 864 9.9202E-02 +* +CFilter_m_d9_m4_e202 864 865 4.5618E-08 +RFilter_m_d9_m4_e202 864 865 2.4727E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 +RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 +RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 +RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 +RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 +RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 +RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 +RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 +RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib new file mode 100644 index 0000000..978e380 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib @@ -0,0 +1,3778 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.279876E-01 +Rdc_c2_e1 3 31 1.279876E-01 +Rdc_c3_e1 4 32 1.279876E-01 +Rdc_c4_e1 5 33 1.279876E-01 +Rdc_c5_e1 6 34 1.279876E-01 +Rdc_c6_e1 7 35 1.279876E-01 +Rdc_c7_e1 8 36 1.279876E-01 +Rdc_c8_e1 9 37 1.279876E-01 +Rdc_c9_e1 10 38 3.350000E-02 +Rdc_c10_e1 11 39 3.350000E-02 +Rdc_c11_e1 12 40 3.350000E-02 +Rdc_c12_e1 13 41 3.350000E-02 +Rdc_c13_e1 14 42 7.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.279876E-01 +Rdc_c2_e2 17 44 1.279876E-01 +Rdc_c3_e2 18 45 1.279876E-01 +Rdc_c4_e2 19 46 1.279876E-01 +Rdc_c5_e2 20 47 1.279876E-01 +Rdc_c6_e2 21 48 1.279876E-01 +Rdc_c7_e2 22 49 1.279876E-01 +Rdc_c8_e2 23 50 1.279876E-01 +Rdc_c9_e2 24 51 3.350000E-02 +Rdc_c10_e2 25 52 3.350000E-02 +Rdc_c11_e2 26 53 3.350000E-02 +Rdc_c12_e2 27 54 3.350000E-02 +Rdc_c13_e2 28 55 7.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.8568E-10 +RFilter_m_d1_m1_e101 428 429 1.2368E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6257E-08 +RFilter_m_d1_m1_e102 429 430 3.1391E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.8568E-10 +RFilter_m_d1_m1_e201 433 434 1.2368E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6257E-08 +RFilter_m_d1_m1_e202 434 435 3.1391E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.5880E-10 +RFilter_m_d2_m1_e101 466 467 1.2988E-01 +* +CFilter_m_d2_m1_e102 467 468 3.4396E-08 +RFilter_m_d2_m1_e102 467 468 3.3035E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.5880E-10 +RFilter_m_d2_m1_e201 471 472 1.2988E-01 +* +CFilter_m_d2_m1_e202 472 473 3.4396E-08 +RFilter_m_d2_m1_e202 472 473 3.3035E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.8944E-10 +RFilter_m_d3_m1_e101 502 503 1.9122E-01 +* +CFilter_m_d3_m1_e102 503 504 2.2742E-08 +RFilter_m_d3_m1_e102 503 504 5.0303E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.8944E-10 +RFilter_m_d3_m1_e201 507 508 1.9122E-01 +* +CFilter_m_d3_m1_e202 508 509 2.2742E-08 +RFilter_m_d3_m1_e202 508 509 5.0303E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 +RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 +RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 +RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 +RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.5880E-10 +RFilter_m_d4_m1_e101 538 539 1.2988E-01 +* +CFilter_m_d4_m1_e102 539 540 3.4396E-08 +RFilter_m_d4_m1_e102 539 540 3.3035E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.5880E-10 +RFilter_m_d4_m1_e201 543 544 1.2988E-01 +* +CFilter_m_d4_m1_e202 544 545 3.4396E-08 +RFilter_m_d4_m1_e202 544 545 3.3035E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.8568E-10 +RFilter_m_d5_m1_e101 574 575 1.2368E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6257E-08 +RFilter_m_d5_m1_e102 575 576 3.1391E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.8568E-10 +RFilter_m_d5_m1_e201 579 580 1.2368E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6257E-08 +RFilter_m_d5_m1_e202 580 581 3.1391E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.5880E-10 +RFilter_m_d6_m1_e101 610 611 1.2988E-01 +* +CFilter_m_d6_m1_e102 611 612 3.4396E-08 +RFilter_m_d6_m1_e102 611 612 3.3035E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.5880E-10 +RFilter_m_d6_m1_e201 615 616 1.2988E-01 +* +CFilter_m_d6_m1_e202 616 617 3.4396E-08 +RFilter_m_d6_m1_e202 616 617 3.3035E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.832152E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.832152E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.8944E-10 +RFilter_m_d7_m1_e101 646 647 1.9122E-01 +* +CFilter_m_d7_m1_e102 647 648 2.2742E-08 +RFilter_m_d7_m1_e102 647 648 5.0303E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.8944E-10 +RFilter_m_d7_m1_e201 651 652 1.9122E-01 +* +CFilter_m_d7_m1_e202 652 653 2.2742E-08 +RFilter_m_d7_m1_e202 652 653 5.0303E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Delay line for negative z propagation +* +T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.832152E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.832152E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 +RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 +RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 +RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 +RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.481624E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.481624E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.5880E-10 +RFilter_m_d8_m1_e101 682 683 1.2988E-01 +* +CFilter_m_d8_m1_e102 683 684 3.4396E-08 +RFilter_m_d8_m1_e102 683 684 3.3035E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.5880E-10 +RFilter_m_d8_m1_e201 687 688 1.2988E-01 +* +CFilter_m_d8_m1_e202 688 689 3.4396E-08 +RFilter_m_d8_m1_e202 688 689 3.3035E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Delay line for negative z propagation +* +T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.481624E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.481624E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 9.655416E+00 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 9.655416E+00 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 4.7432E-10 +RFilter_m_d9_m1_e101 762 763 1.5432E-01 +* +CFilter_m_d9_m1_e102 763 764 2.8566E-08 +RFilter_m_d9_m1_e102 763 764 3.9632E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 4.7432E-10 +RFilter_m_d9_m1_e201 767 768 1.5432E-01 +* +CFilter_m_d9_m1_e202 768 769 2.8566E-08 +RFilter_m_d9_m1_e202 768 769 3.9632E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 9.655416E+00 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 9.655416E+00 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 +RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 +* +CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 +RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 +RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 +* +CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 +RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 +RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 +* +CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 +RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 +RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 +* +CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 +RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 3.278993E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 3.278993E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 6.5092E-10 +RFilter_m_d9_m2_e101 794 795 1.1110E-01 +* +CFilter_m_d9_m2_e102 795 796 4.0757E-08 +RFilter_m_d9_m2_e102 795 796 2.8236E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 6.5092E-10 +RFilter_m_d9_m2_e201 799 800 1.1110E-01 +* +CFilter_m_d9_m2_e202 800 801 4.0757E-08 +RFilter_m_d9_m2_e202 800 801 2.8236E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 3.278993E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 3.278993E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 +RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 +* +CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 +RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 +RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 +* +CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 +RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 +RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 +* +CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 +RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 +RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 +* +CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 +RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 7.2089E-10 +RFilter_m_d9_m3_e101 826 827 9.9202E-02 +* +CFilter_m_d9_m3_e102 827 828 4.5618E-08 +RFilter_m_d9_m3_e102 827 828 2.4727E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 7.2089E-10 +RFilter_m_d9_m3_e201 831 832 9.9202E-02 +* +CFilter_m_d9_m3_e202 832 833 4.5618E-08 +RFilter_m_d9_m3_e202 832 833 2.4727E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 +RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 +RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 +RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 +RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 +RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 +RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 +RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 +RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.464612E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.464612E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 7.2089E-10 +RFilter_m_d9_m4_e101 858 859 9.9202E-02 +* +CFilter_m_d9_m4_e102 859 860 4.5618E-08 +RFilter_m_d9_m4_e102 859 860 2.4727E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 7.2089E-10 +RFilter_m_d9_m4_e201 863 864 9.9202E-02 +* +CFilter_m_d9_m4_e202 864 865 4.5618E-08 +RFilter_m_d9_m4_e202 864 865 2.4727E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.464612E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.464612E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 +RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 +RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 +RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 +RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 +RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 +RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 +RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 +RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 1.037087E+02 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 1.037087E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay line for negative z propagation +* +T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 1.037087E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 1.037087E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/README b/MOD_SPACE_CABLES/SPICE/README new file mode 100644 index 0000000..2b1e207 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/README @@ -0,0 +1 @@ +directory for Spice cable bundle models (.lib files) diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec new file mode 100644 index 0000000..2ce1991 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec @@ -0,0 +1,89 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +#Transfer impedance terms +2 # number of transfer impedances to include in the model +9 -1 # conductor number and coupling direction for transfer impedance model 1 + +13 -1 # conductor number and coupling direction for transfer impedance model 1 + +# End 1 termination model +0.0 End 1 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +2.0 +50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! shield 1 joined to outer shield at end 1 +1E6 ! other inner shields left open circuit +1E6 +1E6 +0.0 +50.0 ! impedance ground plane to shields +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +50.0 End 2 impedance list +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! shield 1 joined to outer shield at end 1 +1E6 ! other inner shields left open circuit +1E6 +1E6 +0.0 +50.0 ! impedance ground plane to shields +# Type of analysis +AC +log # frequency scale (log or lin) +1e4 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 9 2 +dB # output type (lin or dB) +-10 # order for vector fit model +log # frequency scale (log or lin) +1e4 1e9 100 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib new file mode 100644 index 0000000..9813d01 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib @@ -0,0 +1,3778 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 7.945587E-02 +Rdc_c2_e1 3 31 7.945587E-02 +Rdc_c3_e1 4 32 7.945587E-02 +Rdc_c4_e1 5 33 7.945587E-02 +Rdc_c5_e1 6 34 7.945587E-02 +Rdc_c6_e1 7 35 7.945587E-02 +Rdc_c7_e1 8 36 7.945587E-02 +Rdc_c8_e1 9 37 7.945587E-02 +Rdc_c9_e1 10 38 2.050000E-02 +Rdc_c10_e1 11 39 2.050000E-02 +Rdc_c11_e1 12 40 2.050000E-02 +Rdc_c12_e1 13 41 2.050000E-02 +Rdc_c13_e1 14 42 6.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 7.945587E-02 +Rdc_c2_e2 17 44 7.945587E-02 +Rdc_c3_e2 18 45 7.945587E-02 +Rdc_c4_e2 19 46 7.945587E-02 +Rdc_c5_e2 20 47 7.945587E-02 +Rdc_c6_e2 21 48 7.945587E-02 +Rdc_c7_e2 22 49 7.945587E-02 +Rdc_c8_e2 23 50 7.945587E-02 +Rdc_c9_e2 24 51 2.050000E-02 +Rdc_c10_e2 25 52 2.050000E-02 +Rdc_c11_e2 26 53 2.050000E-02 +Rdc_c12_e2 27 54 2.050000E-02 +Rdc_c13_e2 28 55 6.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 7.6911E-10 +RFilter_m_d1_m1_e101 428 429 9.3348E-02 +* +CFilter_m_d1_m1_e102 429 430 4.8963E-08 +RFilter_m_d1_m1_e102 429 430 2.3509E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 7.6911E-10 +RFilter_m_d1_m1_e201 433 434 9.3348E-02 +* +CFilter_m_d1_m1_e202 434 435 4.8963E-08 +RFilter_m_d1_m1_e202 434 435 2.3509E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 +RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 +* +CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 +RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 +RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 +* +CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 +RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 +RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 +* +CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 +RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 +RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 +* +CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 +RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 1.0193E-09 +RFilter_m_d2_m1_e101 466 467 6.9612E-02 +* +CFilter_m_d2_m1_e102 467 468 6.6365E-08 +RFilter_m_d2_m1_e102 467 468 1.7250E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 1.0193E-09 +RFilter_m_d2_m1_e201 471 472 6.9612E-02 +* +CFilter_m_d2_m1_e202 472 473 6.6365E-08 +RFilter_m_d2_m1_e202 472 473 1.7250E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 +RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 +* +CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 +RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 +RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 +* +CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 +RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 +RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 +* +CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 +RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 +RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 +* +CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 +RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 5.1198E-10 +RFilter_m_d3_m1_e101 502 503 1.4326E-01 +* +CFilter_m_d3_m1_e102 503 504 3.1151E-08 +RFilter_m_d3_m1_e102 503 504 3.7091E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 5.1198E-10 +RFilter_m_d3_m1_e201 507 508 1.4326E-01 +* +CFilter_m_d3_m1_e202 508 509 3.1151E-08 +RFilter_m_d3_m1_e202 508 509 3.7091E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 +RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 +RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 +RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 +RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 1.0193E-09 +RFilter_m_d4_m1_e101 538 539 6.9612E-02 +* +CFilter_m_d4_m1_e102 539 540 6.6365E-08 +RFilter_m_d4_m1_e102 539 540 1.7250E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 1.0193E-09 +RFilter_m_d4_m1_e201 543 544 6.9612E-02 +* +CFilter_m_d4_m1_e202 544 545 6.6365E-08 +RFilter_m_d4_m1_e202 544 545 1.7250E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 +RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 +* +CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 +RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 +RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 +* +CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 +RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 +RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 +* +CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 +RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 +RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 +* +CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 +RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 7.6911E-10 +RFilter_m_d5_m1_e101 574 575 9.3348E-02 +* +CFilter_m_d5_m1_e102 575 576 4.8963E-08 +RFilter_m_d5_m1_e102 575 576 2.3509E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 7.6911E-10 +RFilter_m_d5_m1_e201 579 580 9.3348E-02 +* +CFilter_m_d5_m1_e202 580 581 4.8963E-08 +RFilter_m_d5_m1_e202 580 581 2.3509E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 +RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 +* +CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 +RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 +RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 +* +CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 +RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 +RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 +* +CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 +RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 +RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 +* +CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 +RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 1.0193E-09 +RFilter_m_d6_m1_e101 610 611 6.9612E-02 +* +CFilter_m_d6_m1_e102 611 612 6.6365E-08 +RFilter_m_d6_m1_e102 611 612 1.7250E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 1.0193E-09 +RFilter_m_d6_m1_e201 615 616 6.9612E-02 +* +CFilter_m_d6_m1_e202 616 617 6.6365E-08 +RFilter_m_d6_m1_e202 616 617 1.7250E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 +RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 +* +CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 +RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 +RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 +* +CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 +RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 +RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 +* +CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 +RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 +RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 +* +CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 +RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 5.1198E-10 +RFilter_m_d7_m1_e101 646 647 1.4326E-01 +* +CFilter_m_d7_m1_e102 647 648 3.1151E-08 +RFilter_m_d7_m1_e102 647 648 3.7091E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 5.1198E-10 +RFilter_m_d7_m1_e201 651 652 1.4326E-01 +* +CFilter_m_d7_m1_e202 652 653 3.1151E-08 +RFilter_m_d7_m1_e202 652 653 3.7091E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 +RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 +RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 +RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 +RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 1.0193E-09 +RFilter_m_d8_m1_e101 682 683 6.9612E-02 +* +CFilter_m_d8_m1_e102 683 684 6.6365E-08 +RFilter_m_d8_m1_e102 683 684 1.7250E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 1.0193E-09 +RFilter_m_d8_m1_e201 687 688 6.9612E-02 +* +CFilter_m_d8_m1_e202 688 689 6.6365E-08 +RFilter_m_d8_m1_e202 688 689 1.7250E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 +RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 +* +CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 +RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 +RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 +* +CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 +RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 +RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 +* +CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 +RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 +RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 +* +CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 +RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 6.239244E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 6.239244E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 2.0030E-09 +RFilter_m_d9_m1_e101 762 763 3.4790E-02 +* +CFilter_m_d9_m1_e102 763 764 1.3495E-07 +RFilter_m_d9_m1_e102 763 764 8.4084E-03 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 2.0030E-09 +RFilter_m_d9_m1_e201 767 768 3.4790E-02 +* +CFilter_m_d9_m1_e202 768 769 1.3495E-07 +RFilter_m_d9_m1_e202 768 769 8.4084E-03 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 6.239244E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 6.239244E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 +RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 +RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 +RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 +RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 +RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 +RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 +RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 +RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.8405E-09 +RFilter_m_d9_m2_e101 794 795 3.7899E-02 +* +CFilter_m_d9_m2_e102 795 796 1.2361E-07 +RFilter_m_d9_m2_e102 795 796 9.1683E-03 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.8405E-09 +RFilter_m_d9_m2_e201 799 800 3.7899E-02 +* +CFilter_m_d9_m2_e202 800 801 1.2361E-07 +RFilter_m_d9_m2_e202 800 801 9.1683E-03 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 +RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 +RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 +RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 +RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 +RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 +RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 +RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 +RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.8405E-09 +RFilter_m_d9_m3_e101 826 827 3.7899E-02 +* +CFilter_m_d9_m3_e102 827 828 1.2361E-07 +RFilter_m_d9_m3_e102 827 828 9.1683E-03 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.8405E-09 +RFilter_m_d9_m3_e201 831 832 3.7899E-02 +* +CFilter_m_d9_m3_e202 832 833 1.2361E-07 +RFilter_m_d9_m3_e202 832 833 9.1683E-03 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 +RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 +RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 +RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 +RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 +RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 +RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 +RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 +RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.687401E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.687401E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 1.2074E-09 +RFilter_m_d9_m4_e101 858 859 5.8330E-02 +* +CFilter_m_d9_m4_e102 859 860 7.9458E-08 +RFilter_m_d9_m4_e102 859 860 1.4288E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 1.2074E-09 +RFilter_m_d9_m4_e201 863 864 5.8330E-02 +* +CFilter_m_d9_m4_e202 864 865 7.9458E-08 +RFilter_m_d9_m4_e202 864 865 1.4288E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.687401E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.687401E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 +RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 +RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 +RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 +RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 5.674748E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 5.674748E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 5.674748E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 5.674748E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib new file mode 100644 index 0000000..4f65c2c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib @@ -0,0 +1,3778 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 7.945587E-02 +Rdc_c2_e1 3 31 7.945587E-02 +Rdc_c3_e1 4 32 7.945587E-02 +Rdc_c4_e1 5 33 7.945587E-02 +Rdc_c5_e1 6 34 7.945587E-02 +Rdc_c6_e1 7 35 7.945587E-02 +Rdc_c7_e1 8 36 7.945587E-02 +Rdc_c8_e1 9 37 7.945587E-02 +Rdc_c9_e1 10 38 2.050000E-02 +Rdc_c10_e1 11 39 2.050000E-02 +Rdc_c11_e1 12 40 2.050000E-02 +Rdc_c12_e1 13 41 2.050000E-02 +Rdc_c13_e1 14 42 6.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 7.945587E-02 +Rdc_c2_e2 17 44 7.945587E-02 +Rdc_c3_e2 18 45 7.945587E-02 +Rdc_c4_e2 19 46 7.945587E-02 +Rdc_c5_e2 20 47 7.945587E-02 +Rdc_c6_e2 21 48 7.945587E-02 +Rdc_c7_e2 22 49 7.945587E-02 +Rdc_c8_e2 23 50 7.945587E-02 +Rdc_c9_e2 24 51 2.050000E-02 +Rdc_c10_e2 25 52 2.050000E-02 +Rdc_c11_e2 26 53 2.050000E-02 +Rdc_c12_e2 27 54 2.050000E-02 +Rdc_c13_e2 28 55 6.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 7.6911E-10 +RFilter_m_d1_m1_e101 428 429 9.3348E-02 +* +CFilter_m_d1_m1_e102 429 430 4.8963E-08 +RFilter_m_d1_m1_e102 429 430 2.3509E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 7.6911E-10 +RFilter_m_d1_m1_e201 433 434 9.3348E-02 +* +CFilter_m_d1_m1_e202 434 435 4.8963E-08 +RFilter_m_d1_m1_e202 434 435 2.3509E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 +RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 +* +CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 +RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 +RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 +* +CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 +RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 +RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 +* +CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 +RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 +RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 +* +CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 +RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 1.0193E-09 +RFilter_m_d2_m1_e101 466 467 6.9612E-02 +* +CFilter_m_d2_m1_e102 467 468 6.6365E-08 +RFilter_m_d2_m1_e102 467 468 1.7250E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 1.0193E-09 +RFilter_m_d2_m1_e201 471 472 6.9612E-02 +* +CFilter_m_d2_m1_e202 472 473 6.6365E-08 +RFilter_m_d2_m1_e202 472 473 1.7250E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 +RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 +* +CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 +RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 +RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 +* +CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 +RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 +RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 +* +CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 +RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 +RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 +* +CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 +RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 5.1198E-10 +RFilter_m_d3_m1_e101 502 503 1.4326E-01 +* +CFilter_m_d3_m1_e102 503 504 3.1151E-08 +RFilter_m_d3_m1_e102 503 504 3.7091E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 5.1198E-10 +RFilter_m_d3_m1_e201 507 508 1.4326E-01 +* +CFilter_m_d3_m1_e202 508 509 3.1151E-08 +RFilter_m_d3_m1_e202 508 509 3.7091E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 +RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 +RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 +RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 +RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 1.0193E-09 +RFilter_m_d4_m1_e101 538 539 6.9612E-02 +* +CFilter_m_d4_m1_e102 539 540 6.6365E-08 +RFilter_m_d4_m1_e102 539 540 1.7250E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 1.0193E-09 +RFilter_m_d4_m1_e201 543 544 6.9612E-02 +* +CFilter_m_d4_m1_e202 544 545 6.6365E-08 +RFilter_m_d4_m1_e202 544 545 1.7250E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 +RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 +* +CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 +RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 +RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 +* +CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 +RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 +RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 +* +CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 +RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 +RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 +* +CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 +RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 7.6911E-10 +RFilter_m_d5_m1_e101 574 575 9.3348E-02 +* +CFilter_m_d5_m1_e102 575 576 4.8963E-08 +RFilter_m_d5_m1_e102 575 576 2.3509E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 7.6911E-10 +RFilter_m_d5_m1_e201 579 580 9.3348E-02 +* +CFilter_m_d5_m1_e202 580 581 4.8963E-08 +RFilter_m_d5_m1_e202 580 581 2.3509E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 +RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 +* +CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 +RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 +RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 +* +CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 +RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 +RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 +* +CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 +RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 +RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 +* +CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 +RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 1.0193E-09 +RFilter_m_d6_m1_e101 610 611 6.9612E-02 +* +CFilter_m_d6_m1_e102 611 612 6.6365E-08 +RFilter_m_d6_m1_e102 611 612 1.7250E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 1.0193E-09 +RFilter_m_d6_m1_e201 615 616 6.9612E-02 +* +CFilter_m_d6_m1_e202 616 617 6.6365E-08 +RFilter_m_d6_m1_e202 616 617 1.7250E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 +RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 +* +CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 +RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 +RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 +* +CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 +RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 +RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 +* +CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 +RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 +RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 +* +CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 +RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 5.1198E-10 +RFilter_m_d7_m1_e101 646 647 1.4326E-01 +* +CFilter_m_d7_m1_e102 647 648 3.1151E-08 +RFilter_m_d7_m1_e102 647 648 3.7091E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 5.1198E-10 +RFilter_m_d7_m1_e201 651 652 1.4326E-01 +* +CFilter_m_d7_m1_e202 652 653 3.1151E-08 +RFilter_m_d7_m1_e202 652 653 3.7091E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 +RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 +RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 +RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 +RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 1.0193E-09 +RFilter_m_d8_m1_e101 682 683 6.9612E-02 +* +CFilter_m_d8_m1_e102 683 684 6.6365E-08 +RFilter_m_d8_m1_e102 683 684 1.7250E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 1.0193E-09 +RFilter_m_d8_m1_e201 687 688 6.9612E-02 +* +CFilter_m_d8_m1_e202 688 689 6.6365E-08 +RFilter_m_d8_m1_e202 688 689 1.7250E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 +RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 +* +CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 +RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 +RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 +* +CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 +RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 +RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 +* +CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 +RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 +RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 +* +CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 +RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 6.239244E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 6.239244E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 2.0030E-09 +RFilter_m_d9_m1_e101 762 763 3.4790E-02 +* +CFilter_m_d9_m1_e102 763 764 1.3495E-07 +RFilter_m_d9_m1_e102 763 764 8.4084E-03 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 2.0030E-09 +RFilter_m_d9_m1_e201 767 768 3.4790E-02 +* +CFilter_m_d9_m1_e202 768 769 1.3495E-07 +RFilter_m_d9_m1_e202 768 769 8.4084E-03 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 6.239244E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 6.239244E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 +RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 +RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 +RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 +RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 +RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 +RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 +RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 +RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.8405E-09 +RFilter_m_d9_m2_e101 794 795 3.7899E-02 +* +CFilter_m_d9_m2_e102 795 796 1.2361E-07 +RFilter_m_d9_m2_e102 795 796 9.1683E-03 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.8405E-09 +RFilter_m_d9_m2_e201 799 800 3.7899E-02 +* +CFilter_m_d9_m2_e202 800 801 1.2361E-07 +RFilter_m_d9_m2_e202 800 801 9.1683E-03 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 +RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 +RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 +RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 +RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 +RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 +RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 +RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 +RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.8405E-09 +RFilter_m_d9_m3_e101 826 827 3.7899E-02 +* +CFilter_m_d9_m3_e102 827 828 1.2361E-07 +RFilter_m_d9_m3_e102 827 828 9.1683E-03 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.8405E-09 +RFilter_m_d9_m3_e201 831 832 3.7899E-02 +* +CFilter_m_d9_m3_e202 832 833 1.2361E-07 +RFilter_m_d9_m3_e202 832 833 9.1683E-03 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 +RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 +RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 +RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 +RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 +RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 +RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 +RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 +RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.687401E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.687401E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 1.2074E-09 +RFilter_m_d9_m4_e101 858 859 5.8330E-02 +* +CFilter_m_d9_m4_e102 859 860 7.9458E-08 +RFilter_m_d9_m4_e102 859 860 1.4288E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 1.2074E-09 +RFilter_m_d9_m4_e201 863 864 5.8330E-02 +* +CFilter_m_d9_m4_e202 864 865 7.9458E-08 +RFilter_m_d9_m4_e202 864 865 1.4288E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.687401E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.687401E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 +RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 +RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 +RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 +RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 5.674748E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 5.674748E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 5.674748E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 5.674748E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib new file mode 100644 index 0000000..1d4b8a5 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib @@ -0,0 +1,3778 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 7.945587E-02 +Rdc_c2_e1 3 31 7.945587E-02 +Rdc_c3_e1 4 32 7.945587E-02 +Rdc_c4_e1 5 33 7.945587E-02 +Rdc_c5_e1 6 34 7.945587E-02 +Rdc_c6_e1 7 35 7.945587E-02 +Rdc_c7_e1 8 36 7.945587E-02 +Rdc_c8_e1 9 37 7.945587E-02 +Rdc_c9_e1 10 38 2.050000E-02 +Rdc_c10_e1 11 39 2.050000E-02 +Rdc_c11_e1 12 40 2.050000E-02 +Rdc_c12_e1 13 41 2.050000E-02 +Rdc_c13_e1 14 42 6.000000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 7.945587E-02 +Rdc_c2_e2 17 44 7.945587E-02 +Rdc_c3_e2 18 45 7.945587E-02 +Rdc_c4_e2 19 46 7.945587E-02 +Rdc_c5_e2 20 47 7.945587E-02 +Rdc_c6_e2 21 48 7.945587E-02 +Rdc_c7_e2 22 49 7.945587E-02 +Rdc_c8_e2 23 50 7.945587E-02 +Rdc_c9_e2 24 51 2.050000E-02 +Rdc_c10_e2 25 52 2.050000E-02 +Rdc_c11_e2 26 53 2.050000E-02 +Rdc_c12_e2 27 54 2.050000E-02 +Rdc_c13_e2 28 55 6.000000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 7.6911E-10 +RFilter_m_d1_m1_e101 428 429 9.3348E-02 +* +CFilter_m_d1_m1_e102 429 430 4.8963E-08 +RFilter_m_d1_m1_e102 429 430 2.3509E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 7.6911E-10 +RFilter_m_d1_m1_e201 433 434 9.3348E-02 +* +CFilter_m_d1_m1_e202 434 435 4.8963E-08 +RFilter_m_d1_m1_e202 434 435 2.3509E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 +RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 +* +CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 +RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 +RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 +* +CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 +RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 +RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 +* +CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 +RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 +RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 +* +CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 +RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 1.0193E-09 +RFilter_m_d2_m1_e101 466 467 6.9612E-02 +* +CFilter_m_d2_m1_e102 467 468 6.6365E-08 +RFilter_m_d2_m1_e102 467 468 1.7250E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 1.0193E-09 +RFilter_m_d2_m1_e201 471 472 6.9612E-02 +* +CFilter_m_d2_m1_e202 472 473 6.6365E-08 +RFilter_m_d2_m1_e202 472 473 1.7250E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 +RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 +* +CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 +RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 +RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 +* +CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 +RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 +RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 +* +CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 +RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 +RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 +* +CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 +RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 5.1198E-10 +RFilter_m_d3_m1_e101 502 503 1.4326E-01 +* +CFilter_m_d3_m1_e102 503 504 3.1151E-08 +RFilter_m_d3_m1_e102 503 504 3.7091E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 5.1198E-10 +RFilter_m_d3_m1_e201 507 508 1.4326E-01 +* +CFilter_m_d3_m1_e202 508 509 3.1151E-08 +RFilter_m_d3_m1_e202 508 509 3.7091E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 +RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 +RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 +RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 +RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 1.0193E-09 +RFilter_m_d4_m1_e101 538 539 6.9612E-02 +* +CFilter_m_d4_m1_e102 539 540 6.6365E-08 +RFilter_m_d4_m1_e102 539 540 1.7250E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 1.0193E-09 +RFilter_m_d4_m1_e201 543 544 6.9612E-02 +* +CFilter_m_d4_m1_e202 544 545 6.6365E-08 +RFilter_m_d4_m1_e202 544 545 1.7250E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Delay line for negative z propagation +* +T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 +RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 +* +CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 +RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 +RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 +* +CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 +RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 +RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 +* +CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 +RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 +RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 +* +CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 +RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 7.6911E-10 +RFilter_m_d5_m1_e101 574 575 9.3348E-02 +* +CFilter_m_d5_m1_e102 575 576 4.8963E-08 +RFilter_m_d5_m1_e102 575 576 2.3509E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 7.6911E-10 +RFilter_m_d5_m1_e201 579 580 9.3348E-02 +* +CFilter_m_d5_m1_e202 580 581 4.8963E-08 +RFilter_m_d5_m1_e202 580 581 2.3509E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Delay line for negative z propagation +* +T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 +RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 +* +CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 +RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 +RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 +* +CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 +RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 +RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 +* +CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 +RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 +RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 +* +CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 +RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 1.0193E-09 +RFilter_m_d6_m1_e101 610 611 6.9612E-02 +* +CFilter_m_d6_m1_e102 611 612 6.6365E-08 +RFilter_m_d6_m1_e102 611 612 1.7250E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 1.0193E-09 +RFilter_m_d6_m1_e201 615 616 6.9612E-02 +* +CFilter_m_d6_m1_e202 616 617 6.6365E-08 +RFilter_m_d6_m1_e202 616 617 1.7250E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Delay line for negative z propagation +* +T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 +RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 +* +CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 +RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 +RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 +* +CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 +RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 +RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 +* +CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 +RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 +RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 +* +CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 +RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 1.009616E+02 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 1.009616E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 5.1198E-10 +RFilter_m_d7_m1_e101 646 647 1.4326E-01 +* +CFilter_m_d7_m1_e102 647 648 3.1151E-08 +RFilter_m_d7_m1_e102 647 648 3.7091E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 5.1198E-10 +RFilter_m_d7_m1_e201 651 652 1.4326E-01 +* +CFilter_m_d7_m1_e202 652 653 3.1151E-08 +RFilter_m_d7_m1_e202 652 653 3.7091E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Delay line for negative z propagation +* +T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 1.009616E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 1.009616E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 +RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 +RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 +RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 +RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 4.769090E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 4.769090E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 1.0193E-09 +RFilter_m_d8_m1_e101 682 683 6.9612E-02 +* +CFilter_m_d8_m1_e102 683 684 6.6365E-08 +RFilter_m_d8_m1_e102 683 684 1.7250E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 1.0193E-09 +RFilter_m_d8_m1_e201 687 688 6.9612E-02 +* +CFilter_m_d8_m1_e202 688 689 6.6365E-08 +RFilter_m_d8_m1_e202 688 689 1.7250E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Delay line for negative z propagation +* +T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 4.769090E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 4.769090E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 +RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 +* +CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 +RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 +RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 +* +CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 +RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 +RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 +* +CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 +RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 +RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 +* +CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 +RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 6.239244E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 6.239244E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 2.0030E-09 +RFilter_m_d9_m1_e101 762 763 3.4790E-02 +* +CFilter_m_d9_m1_e102 763 764 1.3495E-07 +RFilter_m_d9_m1_e102 763 764 8.4084E-03 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 2.0030E-09 +RFilter_m_d9_m1_e201 767 768 3.4790E-02 +* +CFilter_m_d9_m1_e202 768 769 1.3495E-07 +RFilter_m_d9_m1_e202 768 769 8.4084E-03 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 +* +* Delay line for negative z propagation +* +T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 6.239244E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 6.239244E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 +RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 +RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 +RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 +RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 +RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 +RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 +RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 +RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.8405E-09 +RFilter_m_d9_m2_e101 794 795 3.7899E-02 +* +CFilter_m_d9_m2_e102 795 796 1.2361E-07 +RFilter_m_d9_m2_e102 795 796 9.1683E-03 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.8405E-09 +RFilter_m_d9_m2_e201 799 800 3.7899E-02 +* +CFilter_m_d9_m2_e202 800 801 1.2361E-07 +RFilter_m_d9_m2_e202 800 801 9.1683E-03 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 +RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 +RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 +RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 +RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 +RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 +RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 +RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 +RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.572007E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.572007E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.8405E-09 +RFilter_m_d9_m3_e101 826 827 3.7899E-02 +* +CFilter_m_d9_m3_e102 827 828 1.2361E-07 +RFilter_m_d9_m3_e102 827 828 9.1683E-03 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.8405E-09 +RFilter_m_d9_m3_e201 831 832 3.7899E-02 +* +CFilter_m_d9_m3_e202 832 833 1.2361E-07 +RFilter_m_d9_m3_e202 832 833 9.1683E-03 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.572007E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.572007E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 +RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 +RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 +RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 +RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 +RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 +RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 +RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 +RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.687401E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.687401E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 1.2074E-09 +RFilter_m_d9_m4_e101 858 859 5.8330E-02 +* +CFilter_m_d9_m4_e102 859 860 7.9458E-08 +RFilter_m_d9_m4_e102 859 860 1.4288E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 1.2074E-09 +RFilter_m_d9_m4_e201 863 864 5.8330E-02 +* +CFilter_m_d9_m4_e202 864 865 7.9458E-08 +RFilter_m_d9_m4_e202 864 865 1.4288E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.687401E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.687401E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 +RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 +RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 +RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 +RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 5.674748E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 5.674748E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Delay line for negative z propagation +* +T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 5.674748E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 5.674748E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.510441E-07 G=0.0 C= 1.158657E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.510441E-07 G=0.0 C= 1.158657E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.235906E-07 G=0.0 C= 5.743671E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.235906E-07 G=0.0 C= 5.743671E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.299451E-07 G=0.0 C= 4.563763E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.299451E-07 G=0.0 C= 4.563763E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.046999E-08 G=0.0 C= 2.123749E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.046999E-08 G=0.0 C= 2.123749E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 +* +CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 +* +* +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 +* +CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 +RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 +* +CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 +RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 +* +* +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.018310E-07 G=0.0 C= 1.247815E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.018310E-07 G=0.0 C= 1.247815E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.068746E-07 G=0.0 C= 6.424125E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.068746E-07 G=0.0 C= 6.424125E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 +R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 +RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 +RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 +R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.286018E-07 G=0.0 C= 1.330947E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.286018E-07 G=0.0 C= 1.330947E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.336454E-07 G=0.0 C= 7.255445E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.336454E-07 G=0.0 C= 7.255445E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 +R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec new file mode 100644 index 0000000..20cd3b2 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec @@ -0,0 +1,89 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +#Transfer impedance terms +2 # number of transfer impedances to include in the model +9 -1 # conductor number and coupling direction for transfer impedance model 1 + +13 -1 # conductor number and coupling direction for transfer impedance model 1 + +# End 1 termination model +0.0 End 1 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +2.0 +50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! shield 1 joined to outer shield at end 1 +1E6 ! other inner shields left open circuit +1E6 +1E6 +0.0 +50.0 ! impedance ground plane to shields +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +50.0 End 2 impedance list +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +1E6 +0.0 ! shield 1 joined to outer shield at end 1 +1E6 ! other inner shields left open circuit +1E6 +1E6 +0.0 +50.0 ! impedance ground plane to shields +# Type of analysis +AC +log # frequency scale (log or lin) +1e4 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 9 2 +dB # output type (lin or dB) +-10 # order for vector fit model +log # frequency scale (log or lin) +1e4 1e9 100 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib new file mode 100644 index 0000000..dbdac33 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib @@ -0,0 +1,3786 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.280225E-01 +Rdc_c2_e1 3 31 1.280225E-01 +Rdc_c3_e1 4 32 1.280225E-01 +Rdc_c4_e1 5 33 1.280225E-01 +Rdc_c5_e1 6 34 1.280225E-01 +Rdc_c6_e1 7 35 1.280225E-01 +Rdc_c7_e1 8 36 1.280225E-01 +Rdc_c8_e1 9 37 1.280225E-01 +Rdc_c9_e1 10 38 3.100000E-02 +Rdc_c10_e1 11 39 3.100000E-02 +Rdc_c11_e1 12 40 3.100000E-02 +Rdc_c12_e1 13 41 3.100000E-02 +Rdc_c13_e1 14 42 8.500000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.280225E-01 +Rdc_c2_e2 17 44 1.280225E-01 +Rdc_c3_e2 18 45 1.280225E-01 +Rdc_c4_e2 19 46 1.280225E-01 +Rdc_c5_e2 20 47 1.280225E-01 +Rdc_c6_e2 21 48 1.280225E-01 +Rdc_c7_e2 22 49 1.280225E-01 +Rdc_c8_e2 23 50 1.280225E-01 +Rdc_c9_e2 24 51 3.100000E-02 +Rdc_c10_e2 25 52 3.100000E-02 +Rdc_c11_e2 26 53 3.100000E-02 +Rdc_c12_e2 27 54 3.100000E-02 +Rdc_c13_e2 28 55 8.500000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.9209E-10 +RFilter_m_d1_m1_e101 428 429 1.2226E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6701E-08 +RFilter_m_d1_m1_e102 429 430 3.1007E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.9209E-10 +RFilter_m_d1_m1_e201 433 434 1.2226E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6701E-08 +RFilter_m_d1_m1_e202 434 435 3.1007E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.8574E-10 +RFilter_m_d2_m1_e101 466 467 1.2358E-01 +* +CFilter_m_d2_m1_e102 467 468 3.6258E-08 +RFilter_m_d2_m1_e102 467 468 3.1328E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.8574E-10 +RFilter_m_d2_m1_e201 471 472 1.2358E-01 +* +CFilter_m_d2_m1_e202 472 473 3.6258E-08 +RFilter_m_d2_m1_e202 472 473 3.1328E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.9373E-10 +RFilter_m_d3_m1_e101 502 503 1.8896E-01 +* +CFilter_m_d3_m1_e102 503 504 2.3036E-08 +RFilter_m_d3_m1_e102 503 504 4.9652E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.9373E-10 +RFilter_m_d3_m1_e201 507 508 1.8896E-01 +* +CFilter_m_d3_m1_e202 508 509 2.3036E-08 +RFilter_m_d3_m1_e202 508 509 4.9652E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 +RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 +RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 +RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 +RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.8574E-10 +RFilter_m_d4_m1_e101 538 539 1.2358E-01 +* +CFilter_m_d4_m1_e102 539 540 3.6258E-08 +RFilter_m_d4_m1_e102 539 540 3.1328E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.8574E-10 +RFilter_m_d4_m1_e201 543 544 1.2358E-01 +* +CFilter_m_d4_m1_e202 544 545 3.6258E-08 +RFilter_m_d4_m1_e202 544 545 3.1328E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.9209E-10 +RFilter_m_d5_m1_e101 574 575 1.2226E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6701E-08 +RFilter_m_d5_m1_e102 575 576 3.1007E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.9209E-10 +RFilter_m_d5_m1_e201 579 580 1.2226E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6701E-08 +RFilter_m_d5_m1_e202 580 581 3.1007E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.8574E-10 +RFilter_m_d6_m1_e101 610 611 1.2358E-01 +* +CFilter_m_d6_m1_e102 611 612 3.6258E-08 +RFilter_m_d6_m1_e102 611 612 3.1328E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.8574E-10 +RFilter_m_d6_m1_e201 615 616 1.2358E-01 +* +CFilter_m_d6_m1_e202 616 617 3.6258E-08 +RFilter_m_d6_m1_e202 616 617 3.1328E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.9373E-10 +RFilter_m_d7_m1_e101 646 647 1.8896E-01 +* +CFilter_m_d7_m1_e102 647 648 2.3036E-08 +RFilter_m_d7_m1_e102 647 648 4.9652E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.9373E-10 +RFilter_m_d7_m1_e201 651 652 1.8896E-01 +* +CFilter_m_d7_m1_e202 652 653 2.3036E-08 +RFilter_m_d7_m1_e202 652 653 4.9652E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 +RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 +RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 +RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 +RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.8574E-10 +RFilter_m_d8_m1_e101 682 683 1.2358E-01 +* +CFilter_m_d8_m1_e102 683 684 3.6258E-08 +RFilter_m_d8_m1_e102 683 684 3.1328E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.8574E-10 +RFilter_m_d8_m1_e201 687 688 1.2358E-01 +* +CFilter_m_d8_m1_e202 688 689 3.6258E-08 +RFilter_m_d8_m1_e202 688 689 3.1328E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 4.742867E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 4.742867E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 1.1201E-09 +RFilter_m_d9_m1_e101 762 763 6.2941E-02 +* +CFilter_m_d9_m1_e102 763 764 7.3380E-08 +RFilter_m_d9_m1_e102 763 764 1.5426E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 1.1201E-09 +RFilter_m_d9_m1_e201 767 768 6.2941E-02 +* +CFilter_m_d9_m1_e202 768 769 7.3380E-08 +RFilter_m_d9_m1_e202 768 769 1.5426E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 4.742867E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 4.742867E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 +RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 +RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 +RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 +RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 +RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 +RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 +RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 +RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.3285E-09 +RFilter_m_d9_m2_e101 794 795 5.2739E-02 +* +CFilter_m_d9_m2_e102 795 796 8.7897E-08 +RFilter_m_d9_m2_e102 795 796 1.2807E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.3285E-09 +RFilter_m_d9_m2_e201 799 800 5.2739E-02 +* +CFilter_m_d9_m2_e202 800 801 8.7897E-08 +RFilter_m_d9_m2_e202 800 801 1.2807E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 +RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 +RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 +RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 +RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 +RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 +RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 +RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 +RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.3285E-09 +RFilter_m_d9_m3_e101 826 827 5.2739E-02 +* +CFilter_m_d9_m3_e102 827 828 8.7897E-08 +RFilter_m_d9_m3_e102 827 828 1.2807E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.3285E-09 +RFilter_m_d9_m3_e201 831 832 5.2739E-02 +* +CFilter_m_d9_m3_e202 832 833 8.7897E-08 +RFilter_m_d9_m3_e202 832 833 1.2807E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 +RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 +RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 +RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 +RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 +RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 +RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 +RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 +RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.776751E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.776751E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 9.4177E-10 +RFilter_m_d9_m4_e101 858 859 7.5168E-02 +* +CFilter_m_d9_m4_e102 859 860 6.0964E-08 +RFilter_m_d9_m4_e102 859 860 1.8500E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 9.4177E-10 +RFilter_m_d9_m4_e201 863 864 7.5168E-02 +* +CFilter_m_d9_m4_e202 864 865 6.0964E-08 +RFilter_m_d9_m4_e202 864 865 1.8500E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.776751E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.776751E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 +RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 +RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 +RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 +RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 8.051885E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 8.051885E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 8.051885E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 8.051885E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 +* +LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 +* +LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 +RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 +* +LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 +RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 +R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 +R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 +R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib new file mode 100644 index 0000000..6189f53 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib @@ -0,0 +1,3786 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.280225E-01 +Rdc_c2_e1 3 31 1.280225E-01 +Rdc_c3_e1 4 32 1.280225E-01 +Rdc_c4_e1 5 33 1.280225E-01 +Rdc_c5_e1 6 34 1.280225E-01 +Rdc_c6_e1 7 35 1.280225E-01 +Rdc_c7_e1 8 36 1.280225E-01 +Rdc_c8_e1 9 37 1.280225E-01 +Rdc_c9_e1 10 38 3.100000E-02 +Rdc_c10_e1 11 39 3.100000E-02 +Rdc_c11_e1 12 40 3.100000E-02 +Rdc_c12_e1 13 41 3.100000E-02 +Rdc_c13_e1 14 42 8.500000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.280225E-01 +Rdc_c2_e2 17 44 1.280225E-01 +Rdc_c3_e2 18 45 1.280225E-01 +Rdc_c4_e2 19 46 1.280225E-01 +Rdc_c5_e2 20 47 1.280225E-01 +Rdc_c6_e2 21 48 1.280225E-01 +Rdc_c7_e2 22 49 1.280225E-01 +Rdc_c8_e2 23 50 1.280225E-01 +Rdc_c9_e2 24 51 3.100000E-02 +Rdc_c10_e2 25 52 3.100000E-02 +Rdc_c11_e2 26 53 3.100000E-02 +Rdc_c12_e2 27 54 3.100000E-02 +Rdc_c13_e2 28 55 8.500000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.9209E-10 +RFilter_m_d1_m1_e101 428 429 1.2226E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6701E-08 +RFilter_m_d1_m1_e102 429 430 3.1007E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.9209E-10 +RFilter_m_d1_m1_e201 433 434 1.2226E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6701E-08 +RFilter_m_d1_m1_e202 434 435 3.1007E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.8574E-10 +RFilter_m_d2_m1_e101 466 467 1.2358E-01 +* +CFilter_m_d2_m1_e102 467 468 3.6258E-08 +RFilter_m_d2_m1_e102 467 468 3.1328E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.8574E-10 +RFilter_m_d2_m1_e201 471 472 1.2358E-01 +* +CFilter_m_d2_m1_e202 472 473 3.6258E-08 +RFilter_m_d2_m1_e202 472 473 3.1328E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.9373E-10 +RFilter_m_d3_m1_e101 502 503 1.8896E-01 +* +CFilter_m_d3_m1_e102 503 504 2.3036E-08 +RFilter_m_d3_m1_e102 503 504 4.9652E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.9373E-10 +RFilter_m_d3_m1_e201 507 508 1.8896E-01 +* +CFilter_m_d3_m1_e202 508 509 2.3036E-08 +RFilter_m_d3_m1_e202 508 509 4.9652E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 +RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 +RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 +RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 +RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.8574E-10 +RFilter_m_d4_m1_e101 538 539 1.2358E-01 +* +CFilter_m_d4_m1_e102 539 540 3.6258E-08 +RFilter_m_d4_m1_e102 539 540 3.1328E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.8574E-10 +RFilter_m_d4_m1_e201 543 544 1.2358E-01 +* +CFilter_m_d4_m1_e202 544 545 3.6258E-08 +RFilter_m_d4_m1_e202 544 545 3.1328E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 +.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 +.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.9209E-10 +RFilter_m_d5_m1_e101 574 575 1.2226E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6701E-08 +RFilter_m_d5_m1_e102 575 576 3.1007E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.9209E-10 +RFilter_m_d5_m1_e201 579 580 1.2226E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6701E-08 +RFilter_m_d5_m1_e202 580 581 3.1007E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 +.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 +.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.8574E-10 +RFilter_m_d6_m1_e101 610 611 1.2358E-01 +* +CFilter_m_d6_m1_e102 611 612 3.6258E-08 +RFilter_m_d6_m1_e102 611 612 3.1328E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.8574E-10 +RFilter_m_d6_m1_e201 615 616 1.2358E-01 +* +CFilter_m_d6_m1_e202 616 617 3.6258E-08 +RFilter_m_d6_m1_e202 616 617 3.1328E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 +.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 +.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.9373E-10 +RFilter_m_d7_m1_e101 646 647 1.8896E-01 +* +CFilter_m_d7_m1_e102 647 648 2.3036E-08 +RFilter_m_d7_m1_e102 647 648 4.9652E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.9373E-10 +RFilter_m_d7_m1_e201 651 652 1.8896E-01 +* +CFilter_m_d7_m1_e202 652 653 2.3036E-08 +RFilter_m_d7_m1_e202 652 653 4.9652E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 +.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 +.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 +RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 +RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 +RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 +RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.8574E-10 +RFilter_m_d8_m1_e101 682 683 1.2358E-01 +* +CFilter_m_d8_m1_e102 683 684 3.6258E-08 +RFilter_m_d8_m1_e102 683 684 3.1328E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.8574E-10 +RFilter_m_d8_m1_e201 687 688 1.2358E-01 +* +CFilter_m_d8_m1_e202 688 689 3.6258E-08 +RFilter_m_d8_m1_e202 688 689 3.1328E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 +.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 +.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 4.742867E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 4.742867E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 1.1201E-09 +RFilter_m_d9_m1_e101 762 763 6.2941E-02 +* +CFilter_m_d9_m1_e102 763 764 7.3380E-08 +RFilter_m_d9_m1_e102 763 764 1.5426E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 1.1201E-09 +RFilter_m_d9_m1_e201 767 768 6.2941E-02 +* +CFilter_m_d9_m1_e202 768 769 7.3380E-08 +RFilter_m_d9_m1_e202 768 769 1.5426E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 +.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 +.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 4.742867E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 4.742867E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 +RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 +RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 +RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 +RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 +RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 +RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 +RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 +RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.3285E-09 +RFilter_m_d9_m2_e101 794 795 5.2739E-02 +* +CFilter_m_d9_m2_e102 795 796 8.7897E-08 +RFilter_m_d9_m2_e102 795 796 1.2807E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.3285E-09 +RFilter_m_d9_m2_e201 799 800 5.2739E-02 +* +CFilter_m_d9_m2_e202 800 801 8.7897E-08 +RFilter_m_d9_m2_e202 800 801 1.2807E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 +.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 +.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 +RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 +RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 +RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 +RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 +RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 +RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 +RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 +RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.3285E-09 +RFilter_m_d9_m3_e101 826 827 5.2739E-02 +* +CFilter_m_d9_m3_e102 827 828 8.7897E-08 +RFilter_m_d9_m3_e102 827 828 1.2807E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.3285E-09 +RFilter_m_d9_m3_e201 831 832 5.2739E-02 +* +CFilter_m_d9_m3_e202 832 833 8.7897E-08 +RFilter_m_d9_m3_e202 832 833 1.2807E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 +.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 +.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 +RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 +RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 +RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 +RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 +RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 +RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 +RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 +RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.776751E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.776751E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 9.4177E-10 +RFilter_m_d9_m4_e101 858 859 7.5168E-02 +* +CFilter_m_d9_m4_e102 859 860 6.0964E-08 +RFilter_m_d9_m4_e102 859 860 1.8500E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 9.4177E-10 +RFilter_m_d9_m4_e201 863 864 7.5168E-02 +* +CFilter_m_d9_m4_e202 864 865 6.0964E-08 +RFilter_m_d9_m4_e202 864 865 1.8500E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 +.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 +.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.776751E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.776751E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 +RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 +RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 +RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 +RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 8.051885E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 8.051885E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 +.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 +.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 8.051885E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 8.051885E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 +.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 +* +LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 +* +LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 +RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 +* +LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 +RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 +R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 +R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +O_T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +O_T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +O_T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +O_T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +O_T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 +.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 +R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib new file mode 100644 index 0000000..47c8e7b --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib @@ -0,0 +1,3786 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 +* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 +* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 +* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 +* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 +* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 +* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 +* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 +* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 +* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 +* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 +* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 +* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield +* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground ++ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ++ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 30 1.280225E-01 +Rdc_c2_e1 3 31 1.280225E-01 +Rdc_c3_e1 4 32 1.280225E-01 +Rdc_c4_e1 5 33 1.280225E-01 +Rdc_c5_e1 6 34 1.280225E-01 +Rdc_c6_e1 7 35 1.280225E-01 +Rdc_c7_e1 8 36 1.280225E-01 +Rdc_c8_e1 9 37 1.280225E-01 +Rdc_c9_e1 10 38 3.100000E-02 +Rdc_c10_e1 11 39 3.100000E-02 +Rdc_c11_e1 12 40 3.100000E-02 +Rdc_c12_e1 13 41 3.100000E-02 +Rdc_c13_e1 14 42 8.500000E-03 +Rdc_c14_e1 15 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 16 43 1.280225E-01 +Rdc_c2_e2 17 44 1.280225E-01 +Rdc_c3_e2 18 45 1.280225E-01 +Rdc_c4_e2 19 46 1.280225E-01 +Rdc_c5_e2 20 47 1.280225E-01 +Rdc_c6_e2 21 48 1.280225E-01 +Rdc_c7_e2 22 49 1.280225E-01 +Rdc_c8_e2 23 50 1.280225E-01 +Rdc_c9_e2 24 51 3.100000E-02 +Rdc_c10_e2 25 52 3.100000E-02 +Rdc_c11_e2 26 53 3.100000E-02 +Rdc_c12_e2 27 54 3.100000E-02 +Rdc_c13_e2 28 55 8.500000E-03 +Rdc_c14_e2 29 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 30 69 +Vmeas_domain_decomp_c2_e1 31 82 +Vmeas_domain_decomp_c3_e1 32 95 +Vmeas_domain_decomp_c4_e1 33 108 +Vmeas_domain_decomp_c5_e1 34 121 +Vmeas_domain_decomp_c6_e1 35 134 +Vmeas_domain_decomp_c7_e1 36 147 +Vmeas_domain_decomp_c8_e1 37 160 +Vmeas_domain_decomp_c9_e1 38 173 +Vmeas_domain_decomp_c10_e1 39 186 +Vmeas_domain_decomp_c11_e1 40 199 +Vmeas_domain_decomp_c12_e1 41 212 +Vmeas_domain_decomp_c13_e1 42 225 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 +E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 +E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 +E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 +E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 +E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 +E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 +E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 +E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 +E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 +E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 +E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 +E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 +E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 +E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 +E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 +E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 +E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 +E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 +E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 +E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 +E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 +E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 +E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 +E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 +E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 +E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 +E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 +E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 +E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 +E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 +E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 +E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 +E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 +E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 +E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 +E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 +E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 +E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 +E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 +E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 +E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 +E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 +E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 +E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 +E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 +E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 +E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 +E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 +E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 +E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 +E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 +E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 +E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 +E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 +E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 +E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 +E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 +E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 +E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 +E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 +E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 +E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 +E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 +E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 +E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 +E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 +E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 +E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 +E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 +E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 +E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 +E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 +E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 +E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 +E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 +E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 +E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 +E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 +E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 +E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 +E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 +E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 +E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 +E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 +E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 +E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 +E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 +E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 +E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 +E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 +E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 +E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 +E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 +E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 +F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 +F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 +F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 +F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 +F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 +F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 +F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 +F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 +F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 +F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 +F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 +F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 +F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 +F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 43 251 +Vmeas_domain_decomp_c2_e2 44 264 +Vmeas_domain_decomp_c3_e2 45 277 +Vmeas_domain_decomp_c4_e2 46 290 +Vmeas_domain_decomp_c5_e2 47 303 +Vmeas_domain_decomp_c6_e2 48 316 +Vmeas_domain_decomp_c7_e2 49 329 +Vmeas_domain_decomp_c8_e2 50 342 +Vmeas_domain_decomp_c9_e2 51 355 +Vmeas_domain_decomp_c10_e2 52 368 +Vmeas_domain_decomp_c11_e2 53 381 +Vmeas_domain_decomp_c12_e2 54 394 +Vmeas_domain_decomp_c13_e2 55 407 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 +E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 +E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 +E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 +E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 +E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 +E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 +E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 +E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 +E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 +E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 +E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 +E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 +E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 +E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 +E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 +E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 +E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 +E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 +E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 +E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 +E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 +E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 +E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 +E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 +E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 +E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 +E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 +E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 +E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 +E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 +E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 +E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 +E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 +E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 +E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 +E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 +E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 +E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 +E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 +E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 +E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 +E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 +E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 +E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 +E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 +E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 +E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 +E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 +E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 +E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 +E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 +E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 +E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 +E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 +E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 +E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 +E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 +E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 +E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 +E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 +E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 +E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 +E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 +E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 +E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 +E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 +E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 +E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 +E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 +E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 +E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 +E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 +E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 +E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 +E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 +E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 +E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 +E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 +E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 +E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 +E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 +E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 +E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 +E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 +E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 +E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 +E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 +E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 +E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 +E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 +E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 +E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 +E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 +E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 +E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 +E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 +E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 +E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 +E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 +E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 +E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 +E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 +E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 +E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 +E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 +E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 +E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 +F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 +F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 +F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 +F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 +F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 +F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 +F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 +F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 +F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 +F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 +F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 +F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 +F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 +F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 56 421 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 238 423 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 420 424 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 422 425 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 428 429 5.9209E-10 +RFilter_m_d1_m1_e101 428 429 1.2226E-01 +* +CFilter_m_d1_m1_e102 429 430 3.6701E-08 +RFilter_m_d1_m1_e102 429 430 3.1007E-02 +* +RFilter_m_d1_m1_e103 430 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 433 434 5.9209E-10 +RFilter_m_d1_m1_e201 433 434 1.2226E-01 +* +CFilter_m_d1_m1_e202 434 435 3.6701E-08 +RFilter_m_d1_m1_e202 434 435 3.1007E-02 +* +RFilter_m_d1_m1_e203 435 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 431 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 426 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 +RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 +* +CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 +RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 +* +RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 +RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 +* +CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 +RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 +* +RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 +RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 +* +CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 +RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 +* +RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 +RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 +* +CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 +RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 +* +RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 57 457 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 239 459 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 456 462 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 458 463 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 466 467 5.8574E-10 +RFilter_m_d2_m1_e101 466 467 1.2358E-01 +* +CFilter_m_d2_m1_e102 467 468 3.6258E-08 +RFilter_m_d2_m1_e102 467 468 3.1328E-02 +* +RFilter_m_d2_m1_e103 468 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 471 472 5.8574E-10 +RFilter_m_d2_m1_e201 471 472 1.2358E-01 +* +CFilter_m_d2_m1_e202 472 473 3.6258E-08 +RFilter_m_d2_m1_e202 472 473 3.1328E-02 +* +RFilter_m_d2_m1_e203 473 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 469 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 464 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 +RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 +* +CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 +RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 +* +RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 +RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 +* +CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 +RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 +* +RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 +RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 +* +CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 +RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 +* +RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 +RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 +* +CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 +RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 +* +RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 58 495 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 240 497 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 494 498 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 496 499 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 502 503 3.9373E-10 +RFilter_m_d3_m1_e101 502 503 1.8896E-01 +* +CFilter_m_d3_m1_e102 503 504 2.3036E-08 +RFilter_m_d3_m1_e102 503 504 4.9652E-02 +* +RFilter_m_d3_m1_e103 504 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 507 508 3.9373E-10 +RFilter_m_d3_m1_e201 507 508 1.8896E-01 +* +CFilter_m_d3_m1_e202 508 509 2.3036E-08 +RFilter_m_d3_m1_e202 508 509 4.9652E-02 +* +RFilter_m_d3_m1_e203 509 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 505 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 500 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 +RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 +* +CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 +RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 +* +RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 +RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 +* +CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 +RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 +* +RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 +RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 +* +CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 +RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 +* +RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 +RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 +* +CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 +RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 +* +RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 +* +* +* DOMAIN 4 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e1 59 531 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d4_c1_e2 241 533 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d4_m1_e1 530 534 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d4_m1_e2 532 535 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 +* +CFilter_m_d4_m1_e101 538 539 5.8574E-10 +RFilter_m_d4_m1_e101 538 539 1.2358E-01 +* +CFilter_m_d4_m1_e102 539 540 3.6258E-08 +RFilter_m_d4_m1_e102 539 540 3.1328E-02 +* +RFilter_m_d4_m1_e103 540 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 +* +CFilter_m_d4_m1_e201 543 544 5.8574E-10 +RFilter_m_d4_m1_e201 543 544 1.2358E-01 +* +CFilter_m_d4_m1_e202 544 545 3.6258E-08 +RFilter_m_d4_m1_e202 544 545 3.1328E-02 +* +RFilter_m_d4_m1_e203 545 1 1.0000E+00 +* +* +ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Delay line for negative z propagation +* +T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d4_m1_e1 541 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d4_m1_e2 536 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 +RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 +* +CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 +RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 +* +RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 +* +CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 +RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 +* +CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 +RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 +* +RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 +RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 +* +CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 +RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 +* +RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 +* +CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 +RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 +* +CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 +RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 +* +RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 +* +* +* DOMAIN 5 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e1 60 567 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d5_c1_e2 242 569 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d5_m1_e1 566 570 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d5_m1_e2 568 571 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 +* +CFilter_m_d5_m1_e101 574 575 5.9209E-10 +RFilter_m_d5_m1_e101 574 575 1.2226E-01 +* +CFilter_m_d5_m1_e102 575 576 3.6701E-08 +RFilter_m_d5_m1_e102 575 576 3.1007E-02 +* +RFilter_m_d5_m1_e103 576 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 +* +CFilter_m_d5_m1_e201 579 580 5.9209E-10 +RFilter_m_d5_m1_e201 579 580 1.2226E-01 +* +CFilter_m_d5_m1_e202 580 581 3.6701E-08 +RFilter_m_d5_m1_e202 580 581 3.1007E-02 +* +RFilter_m_d5_m1_e203 581 1 1.0000E+00 +* +* +ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Delay line for negative z propagation +* +T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d5_m1_e1 577 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d5_m1_e2 572 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 +RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 +* +CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 +RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 +* +RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 +* +CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 +RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 +* +CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 +RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 +* +RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 +RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 +* +CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 +RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 +* +RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 +* +CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 +RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 +* +CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 +RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 +* +RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 +* +* +* DOMAIN 6 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e1 61 603 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d6_c1_e2 243 605 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d6_m1_e1 602 606 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d6_m1_e2 604 607 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 +* +CFilter_m_d6_m1_e101 610 611 5.8574E-10 +RFilter_m_d6_m1_e101 610 611 1.2358E-01 +* +CFilter_m_d6_m1_e102 611 612 3.6258E-08 +RFilter_m_d6_m1_e102 611 612 3.1328E-02 +* +RFilter_m_d6_m1_e103 612 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 +* +CFilter_m_d6_m1_e201 615 616 5.8574E-10 +RFilter_m_d6_m1_e201 615 616 1.2358E-01 +* +CFilter_m_d6_m1_e202 616 617 3.6258E-08 +RFilter_m_d6_m1_e202 616 617 3.1328E-02 +* +RFilter_m_d6_m1_e203 617 1 1.0000E+00 +* +* +ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Delay line for negative z propagation +* +T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d6_m1_e1 613 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d6_m1_e2 608 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 +RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 +* +CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 +RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 +* +RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 +* +CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 +RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 +* +CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 +RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 +* +RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 +RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 +* +CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 +RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 +* +RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 +* +CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 +RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 +* +CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 +RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 +* +RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 +* +* +* DOMAIN 7 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e1 62 639 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d7_c1_e2 244 641 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d7_m1_e1 638 642 9.940973E+01 +* +* Modal impedance: end2 +* +RZCm_d7_m1_e2 640 643 9.940973E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 +* +CFilter_m_d7_m1_e101 646 647 3.9373E-10 +RFilter_m_d7_m1_e101 646 647 1.8896E-01 +* +CFilter_m_d7_m1_e102 647 648 2.3036E-08 +RFilter_m_d7_m1_e102 647 648 4.9652E-02 +* +RFilter_m_d7_m1_e103 648 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 +* +CFilter_m_d7_m1_e201 651 652 3.9373E-10 +RFilter_m_d7_m1_e201 651 652 1.8896E-01 +* +CFilter_m_d7_m1_e202 652 653 2.3036E-08 +RFilter_m_d7_m1_e202 652 653 4.9652E-02 +* +RFilter_m_d7_m1_e203 653 1 1.0000E+00 +* +* +ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Delay line for negative z propagation +* +T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d7_m1_e1 649 1 9.940973E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d7_m1_e2 644 1 9.940973E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 +RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 +* +CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 +RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 +* +RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 +* +CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 +RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 +* +CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 +RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 +* +RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 +RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 +* +CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 +RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 +* +RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 +* +CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 +RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 +* +CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 +RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 +* +RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 +* +* +* DOMAIN 8 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e1 63 675 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d8_c1_e2 245 677 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d8_m1_e1 674 678 3.565410E+01 +* +* Modal impedance: end2 +* +RZCm_d8_m1_e2 676 679 3.565410E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 +* +CFilter_m_d8_m1_e101 682 683 5.8574E-10 +RFilter_m_d8_m1_e101 682 683 1.2358E-01 +* +CFilter_m_d8_m1_e102 683 684 3.6258E-08 +RFilter_m_d8_m1_e102 683 684 3.1328E-02 +* +RFilter_m_d8_m1_e103 684 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 +* +CFilter_m_d8_m1_e201 687 688 5.8574E-10 +RFilter_m_d8_m1_e201 687 688 1.2358E-01 +* +CFilter_m_d8_m1_e202 688 689 3.6258E-08 +RFilter_m_d8_m1_e202 688 689 3.1328E-02 +* +RFilter_m_d8_m1_e203 689 1 1.0000E+00 +* +* +ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Delay line for negative z propagation +* +T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d8_m1_e1 685 1 3.565410E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d8_m1_e2 680 1 3.565410E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 +RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 +* +CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 +RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 +* +RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 +* +CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 +RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 +* +CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 +RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 +* +RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 +RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 +* +CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 +RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 +* +RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 +* +CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 +RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 +* +CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 +RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 +* +RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 +* +* +* DOMAIN 9 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e1 64 714 +Vmeas_mode_decomp_d9_c2_e1 65 718 +Vmeas_mode_decomp_d9_c3_e1 66 722 +Vmeas_mode_decomp_d9_c4_e1 67 726 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d9_c1_e2 246 734 +Vmeas_mode_decomp_d9_c2_e2 247 738 +Vmeas_mode_decomp_d9_c3_e2 248 742 +Vmeas_mode_decomp_d9_c4_e2 249 746 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 +E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 +E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 +E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 +E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 +E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 +E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 +E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 +E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 +E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 +E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 +E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 +E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 +E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 +E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 +F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 +F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 +F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 +F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 +F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 +F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 +F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 +F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 +F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 +F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 +F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 +F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 +F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 +* +* Modal impedance: end1 +* +RZCm_d9_m1_e1 710 758 4.742867E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m1_e2 730 759 4.742867E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 +* +CFilter_m_d9_m1_e101 762 763 1.1201E-09 +RFilter_m_d9_m1_e101 762 763 6.2941E-02 +* +CFilter_m_d9_m1_e102 763 764 7.3380E-08 +RFilter_m_d9_m1_e102 763 764 1.5426E-02 +* +RFilter_m_d9_m1_e103 764 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 +* +CFilter_m_d9_m1_e201 767 768 1.1201E-09 +RFilter_m_d9_m1_e201 767 768 6.2941E-02 +* +CFilter_m_d9_m1_e202 768 769 7.3380E-08 +RFilter_m_d9_m1_e202 768 769 1.5426E-02 +* +RFilter_m_d9_m1_e203 769 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 +* +* Delay line for negative z propagation +* +T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m1_e1 765 1 4.742867E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m1_e2 760 1 4.742867E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 +RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 +* +CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 +RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 +* +RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 +* +CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 +RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 +* +CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 +RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 +* +RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 +RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 +* +CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 +RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 +* +RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 +* +CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 +RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 +* +CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 +RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 +* +RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m2_e1 711 790 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m2_e2 731 791 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 +* +CFilter_m_d9_m2_e101 794 795 1.3285E-09 +RFilter_m_d9_m2_e101 794 795 5.2739E-02 +* +CFilter_m_d9_m2_e102 795 796 8.7897E-08 +RFilter_m_d9_m2_e102 795 796 1.2807E-02 +* +RFilter_m_d9_m2_e103 796 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 +* +CFilter_m_d9_m2_e201 799 800 1.3285E-09 +RFilter_m_d9_m2_e201 799 800 5.2739E-02 +* +CFilter_m_d9_m2_e202 800 801 8.7897E-08 +RFilter_m_d9_m2_e202 800 801 1.2807E-02 +* +RFilter_m_d9_m2_e203 801 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m2_e1 797 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m2_e2 792 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 +RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 +* +CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 +RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 +* +RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 +* +CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 +RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 +* +CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 +RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 +* +RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 +RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 +* +CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 +RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 +* +RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 +* +CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 +RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 +* +CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 +RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 +* +RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m3_e1 712 822 2.505812E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m3_e2 732 823 2.505812E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 +* +CFilter_m_d9_m3_e101 826 827 1.3285E-09 +RFilter_m_d9_m3_e101 826 827 5.2739E-02 +* +CFilter_m_d9_m3_e102 827 828 8.7897E-08 +RFilter_m_d9_m3_e102 827 828 1.2807E-02 +* +RFilter_m_d9_m3_e103 828 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 +* +CFilter_m_d9_m3_e201 831 832 1.3285E-09 +RFilter_m_d9_m3_e201 831 832 5.2739E-02 +* +CFilter_m_d9_m3_e202 832 833 8.7897E-08 +RFilter_m_d9_m3_e202 832 833 1.2807E-02 +* +RFilter_m_d9_m3_e203 833 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m3_e1 829 1 2.505812E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m3_e2 824 1 2.505812E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 +RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 +* +CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 +RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 +* +RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 +* +CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 +RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 +* +CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 +RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 +* +RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 +RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 +* +CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 +RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 +* +RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 +* +CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 +RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 +* +CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 +RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 +* +RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 +* +* +* Modal impedance: end1 +* +RZCm_d9_m4_e1 713 854 1.776751E+01 +* +* Modal impedance: end2 +* +RZCm_d9_m4_e2 733 855 1.776751E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 +* +CFilter_m_d9_m4_e101 858 859 9.4177E-10 +RFilter_m_d9_m4_e101 858 859 7.5168E-02 +* +CFilter_m_d9_m4_e102 859 860 6.0964E-08 +RFilter_m_d9_m4_e102 859 860 1.8500E-02 +* +RFilter_m_d9_m4_e103 860 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 +* +CFilter_m_d9_m4_e201 863 864 9.4177E-10 +RFilter_m_d9_m4_e201 863 864 7.5168E-02 +* +CFilter_m_d9_m4_e202 864 865 6.0964E-08 +RFilter_m_d9_m4_e202 864 865 1.8500E-02 +* +RFilter_m_d9_m4_e203 865 1 1.0000E+00 +* +* +ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 ++ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 +* +* Delay line for negative z propagation +* +T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 ++ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d9_m4_e1 861 1 1.776751E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d9_m4_e2 856 1 1.776751E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 +RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 +* +CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 +RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 +* +RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 +* +CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 +RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 +* +CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 +RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 +* +RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 +RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 +* +CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 +RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 +* +RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 +* +CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 +RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 +* +CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 +RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 +* +RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 +* +* +* DOMAIN 10 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e1 68 887 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d10_c1_e2 250 889 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d10_m1_e1 886 890 8.051885E+01 +* +* Modal impedance: end2 +* +RZCm_d10_m1_e2 888 891 8.051885E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d10_m1_e1 890 1 892 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d10_m1_e2 891 1 893 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Delay line for negative z propagation +* +T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d10_m1_e1 893 1 8.051885E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d10_m1_e2 892 1 8.051885E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 +E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 +E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.660834E-07 G=0.0 C= 1.627414E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.660834E-07 G=0.0 C= 1.627414E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.810059E-07 G=0.0 C= 8.046571E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.810059E-07 G=0.0 C= 8.046571E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.424126E-07 G=0.0 C= 4.511231E-10 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.424126E-07 G=0.0 C= 4.511231E-10 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 ++ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 ++ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.780760E-08 G=0.0 C= 2.147955E-10 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.780760E-08 G=0.0 C= 2.147955E-10 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 +E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 +E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 +E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 +E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 +E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 +E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 +E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 +E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 +E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 +E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 +E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 +E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 +E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 +E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 +E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 +E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 +R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 +R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 +* +LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 +RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 +* +LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 +RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 +* +RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 +ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 +* +LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 +RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 +* +LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 +RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 +* +RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 +* +* +* +GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 +ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 +* +* +* START OF TRANSFER IMPEDANCE COUPLING MODELS +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.890829E-07 G=0.0 C= 9.086179E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.890829E-07 G=0.0 C= 9.086179E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.142030E-07 G=0.0 C= 4.846354E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.142030E-07 G=0.0 C= 4.846354E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 +E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 +E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 +E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 +E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 +R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 +RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 +RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 +RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 +RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 +E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 +E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 +E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 +E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 +R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 +E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 +E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 +E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 +E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 +R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 +RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 +RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 +RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 +RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 +* +* +* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.129750E-07 G=0.0 C= 9.454697E-11 +* +* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) +* +T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 ++ R=0.0 L= 6.129750E-07 G=0.0 C= 9.454697E-11 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 +* +* Modal impedances: T_source(s_mode)+T_victim(v_mode) +* +RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_source(s_mode) delay +* +T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Delay lines for negative z propagation, T_source(s_mode) delay +* +T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 +* +* Modal impedances: for pz propagation, T_source(s_mode) +* +RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 +* +* Modal impedances: for mz propagation, T_source(s_mode) +* +RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation, Vs+(0,t) +* +E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation Vs-(L,t) +* +E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 +* +* Delay lines for positive z propagation, T_victim(v_mode) +* +T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.380950E-07 G=0.0 C= 5.214871E-11 +* +* Delay lines for negative z propagation, T_victim(v_mode) +* +T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.380950E-07 G=0.0 C= 5.214871E-11 +* +* Modal impedances for pz propagation: T_victim(v_mode) +* +RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 +* +* Modal impedances for Mz propagation: T_victim(v_mode) +* +RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 +* +* Delay line controlled sources for positive z propagation +* +E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 +* +* Delay line controlled sources for negative z propagation +* +E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 +* +* Circuit to combine transfer impedance terms +* +E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 +E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 +E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 +E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 +E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 +R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 +R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 +* +* Transfer impedance sources, end 1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 +* +LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 +RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 +* +LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 +RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 +* +RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 +* +R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 +ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 +* +* +* Transfer impedance sources, end 2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 +* +LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 +RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 +* +LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 +RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 +* +RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 +* +* +* +GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 +* +R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 +ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec new file mode 100644 index 0000000..741ccea --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec @@ -0,0 +1,45 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +STP_AWG_26_ESCC_3901025_V12_ground_plane +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model +1.0 End 1 voltage source list +-1.0 +0.0 +0.0 +60.0 End 1 impedance list +60.0 +0.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +60.0 End 2 impedance list +60.0 +0.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 ! order of vector fit model +log # frequency scale (log or lin) +1e5 1e9 200 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib new file mode 100644 index 0000000..56923b3 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib @@ -0,0 +1,602 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 8.499819E-02 +Rdc_c2_e1 3 11 8.499819E-02 +Rdc_c3_e1 4 12 7.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 8.499819E-02 +Rdc_c2_e2 7 14 8.499819E-02 +Rdc_c3_e2 8 15 7.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 5.984632E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 5.984632E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 4.5852E-10 +RFilter_m_d1_m1_e101 48 49 1.6606E-01 +* +CFilter_m_d1_m1_e102 49 50 2.7354E-08 +RFilter_m_d1_m1_e102 49 50 4.3469E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 4.5852E-10 +RFilter_m_d1_m1_e201 53 54 1.6606E-01 +* +CFilter_m_d1_m1_e202 54 55 2.7354E-08 +RFilter_m_d1_m1_e202 54 55 4.3469E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 5.984632E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 5.984632E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 +RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 +* +CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 +RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 +RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 +* +CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 +RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 +RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 +* +CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 +RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 +RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 +* +CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 +RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 2.302123E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 2.302123E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 4.2643E-10 +RFilter_m_d2_m1_e101 84 85 1.7733E-01 +* +CFilter_m_d2_m1_e102 85 86 2.5161E-08 +RFilter_m_d2_m1_e102 85 86 4.5624E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 4.2643E-10 +RFilter_m_d2_m1_e201 89 90 1.7733E-01 +* +CFilter_m_d2_m1_e202 90 91 2.5161E-08 +RFilter_m_d2_m1_e202 90 91 4.5624E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 2.302123E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 2.302123E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 +RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 +* +CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 +RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 +RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 +* +CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 +RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 +RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 +* +CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 +RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 +RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 +* +CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 +RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.980919E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.980919E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 1.3959E-08 +RFilter_m_d3_m1_e101 120 121 4.9166E-03 +* +CFilter_m_d3_m1_e102 121 122 9.6729E-07 +RFilter_m_d3_m1_e102 121 122 1.1033E-03 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 1.3959E-08 +RFilter_m_d3_m1_e201 125 126 4.9166E-03 +* +CFilter_m_d3_m1_e202 126 127 9.6729E-07 +RFilter_m_d3_m1_e202 126 127 1.1033E-03 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.980919E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.980919E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 +RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 +RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 +RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 +RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 +RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 +RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 +RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 +RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib new file mode 100644 index 0000000..cd42c80 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib @@ -0,0 +1,602 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 8.499819E-02 +Rdc_c2_e1 3 11 8.499819E-02 +Rdc_c3_e1 4 12 7.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 8.499819E-02 +Rdc_c2_e2 7 14 8.499819E-02 +Rdc_c3_e2 8 15 7.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 5.984632E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 5.984632E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 4.5852E-10 +RFilter_m_d1_m1_e101 48 49 1.6606E-01 +* +CFilter_m_d1_m1_e102 49 50 2.7354E-08 +RFilter_m_d1_m1_e102 49 50 4.3469E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 4.5852E-10 +RFilter_m_d1_m1_e201 53 54 1.6606E-01 +* +CFilter_m_d1_m1_e202 54 55 2.7354E-08 +RFilter_m_d1_m1_e202 54 55 4.3469E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 5.984632E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 5.984632E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 +RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 +* +CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 +RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 +RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 +* +CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 +RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 +RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 +* +CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 +RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 +RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 +* +CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 +RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 2.302123E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 2.302123E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 4.2643E-10 +RFilter_m_d2_m1_e101 84 85 1.7733E-01 +* +CFilter_m_d2_m1_e102 85 86 2.5161E-08 +RFilter_m_d2_m1_e102 85 86 4.5624E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 4.2643E-10 +RFilter_m_d2_m1_e201 89 90 1.7733E-01 +* +CFilter_m_d2_m1_e202 90 91 2.5161E-08 +RFilter_m_d2_m1_e202 90 91 4.5624E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 2.302123E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 2.302123E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 +RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 +* +CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 +RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 +RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 +* +CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 +RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 +RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 +* +CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 +RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 +RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 +* +CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 +RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.980919E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.980919E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 1.3959E-08 +RFilter_m_d3_m1_e101 120 121 4.9166E-03 +* +CFilter_m_d3_m1_e102 121 122 9.6729E-07 +RFilter_m_d3_m1_e102 121 122 1.1033E-03 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 1.3959E-08 +RFilter_m_d3_m1_e201 125 126 4.9166E-03 +* +CFilter_m_d3_m1_e202 126 127 9.6729E-07 +RFilter_m_d3_m1_e202 126 127 1.1033E-03 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.980919E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.980919E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 +RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 +RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 +RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 +RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 +RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 +RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 +RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 +RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib new file mode 100644 index 0000000..72276c0 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib @@ -0,0 +1,602 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 8.499819E-02 +Rdc_c2_e1 3 11 8.499819E-02 +Rdc_c3_e1 4 12 7.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 8.499819E-02 +Rdc_c2_e2 7 14 8.499819E-02 +Rdc_c3_e2 8 15 7.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 5.984632E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 5.984632E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 4.5852E-10 +RFilter_m_d1_m1_e101 48 49 1.6606E-01 +* +CFilter_m_d1_m1_e102 49 50 2.7354E-08 +RFilter_m_d1_m1_e102 49 50 4.3469E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 4.5852E-10 +RFilter_m_d1_m1_e201 53 54 1.6606E-01 +* +CFilter_m_d1_m1_e202 54 55 2.7354E-08 +RFilter_m_d1_m1_e202 54 55 4.3469E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 51 1 56 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.557455E-07 G=0.0 C= 7.140573E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 46 1 57 1 LEN= 1.000000E+00 ++ R=0.0 L= 2.557455E-07 G=0.0 C= 7.140573E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 5.984632E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 5.984632E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 +RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 +* +CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 +RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 +RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 +* +CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 +RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 +RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 +* +CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 +RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 +RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 +* +CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 +RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 2.302123E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 2.302123E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 4.2643E-10 +RFilter_m_d2_m1_e101 84 85 1.7733E-01 +* +CFilter_m_d2_m1_e102 85 86 2.5161E-08 +RFilter_m_d2_m1_e102 85 86 4.5624E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 4.2643E-10 +RFilter_m_d2_m1_e201 89 90 1.7733E-01 +* +CFilter_m_d2_m1_e202 90 91 2.5161E-08 +RFilter_m_d2_m1_e202 90 91 4.5624E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 87 1 92 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.520499E-08 G=0.0 C= 1.796399E-10 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 82 1 93 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.520499E-08 G=0.0 C= 1.796399E-10 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 2.302123E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 2.302123E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 +RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 +* +CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 +RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 +RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 +* +CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 +RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 +RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 +* +CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 +RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 +RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 +* +CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 +RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.980919E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.980919E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 1.3959E-08 +RFilter_m_d3_m1_e101 120 121 4.9166E-03 +* +CFilter_m_d3_m1_e102 121 122 9.6729E-07 +RFilter_m_d3_m1_e102 121 122 1.1033E-03 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 1.3959E-08 +RFilter_m_d3_m1_e201 125 126 4.9166E-03 +* +CFilter_m_d3_m1_e202 126 127 9.6729E-07 +RFilter_m_d3_m1_e202 126 127 1.1033E-03 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 123 1 128 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.007397E-06 G=0.0 C= 1.133706E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 118 1 129 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.007397E-06 G=0.0 C= 1.133706E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.980919E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.980919E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 +RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 +RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 +RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 +RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 +RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 +RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 +RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 +RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec new file mode 100644 index 0000000..ec136ab --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec @@ -0,0 +1,45 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model +1.0 End 1 voltage source list +-1.0 +0.0 +0.0 +60.0 End 1 impedance list +60.0 +0.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +60.0 End 2 impedance list +60.0 +0.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +dB # output type (lin or dB) +2 ! order of vector fit model +log # frequency scale (log or lin) +1e5 1e9 200 # fmin fmax number_of_frequencies + diff --git a/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib new file mode 100644 index 0000000..1a8601a --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib @@ -0,0 +1,602 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 7.950673E-02 +Rdc_c2_e1 3 11 7.950673E-02 +Rdc_c3_e1 4 12 5.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 7.950673E-02 +Rdc_c2_e2 7 14 7.950673E-02 +Rdc_c3_e2 8 15 5.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 1.167281E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 1.167281E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 9.2741E-10 +RFilter_m_d1_m1_e101 48 49 7.9126E-02 +* +CFilter_m_d1_m1_e102 49 50 5.9841E-08 +RFilter_m_d1_m1_e102 49 50 1.9750E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 9.2741E-10 +RFilter_m_d1_m1_e201 53 54 7.9126E-02 +* +CFilter_m_d1_m1_e202 54 55 5.9841E-08 +RFilter_m_d1_m1_e202 54 55 1.9750E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 1.167281E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 1.167281E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 +RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 +* +CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 +RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 +RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 +* +CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 +RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 +RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 +* +CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 +RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 +RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 +* +CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 +RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 4.143536E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 4.143536E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 9.2371E-10 +RFilter_m_d2_m1_e101 84 85 7.8589E-02 +* +CFilter_m_d2_m1_e102 85 86 5.9549E-08 +RFilter_m_d2_m1_e102 85 86 1.9192E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 9.2371E-10 +RFilter_m_d2_m1_e201 89 90 7.8589E-02 +* +CFilter_m_d2_m1_e202 90 91 5.9549E-08 +RFilter_m_d2_m1_e202 90 91 1.9192E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 4.143536E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 4.143536E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 +RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 +* +CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 +RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 +RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 +* +CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 +RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 +RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 +* +CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 +RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 +RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 +* +CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 +RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.766373E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.766373E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 2.0513E-08 +RFilter_m_d3_m1_e101 120 121 3.3143E-03 +* +CFilter_m_d3_m1_e102 121 122 1.4219E-06 +RFilter_m_d3_m1_e102 121 122 7.3248E-04 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 2.0513E-08 +RFilter_m_d3_m1_e201 125 126 3.3143E-03 +* +CFilter_m_d3_m1_e202 126 127 1.4219E-06 +RFilter_m_d3_m1_e202 126 127 7.3248E-04 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.766373E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.766373E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 +RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 +RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 +RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 +RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 +RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 +RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 +RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 +RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib new file mode 100644 index 0000000..73927ef --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib @@ -0,0 +1,602 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 7.950673E-02 +Rdc_c2_e1 3 11 7.950673E-02 +Rdc_c3_e1 4 12 5.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 7.950673E-02 +Rdc_c2_e2 7 14 7.950673E-02 +Rdc_c3_e2 8 15 5.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 1.167281E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 1.167281E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 9.2741E-10 +RFilter_m_d1_m1_e101 48 49 7.9126E-02 +* +CFilter_m_d1_m1_e102 49 50 5.9841E-08 +RFilter_m_d1_m1_e102 49 50 1.9750E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 9.2741E-10 +RFilter_m_d1_m1_e201 53 54 7.9126E-02 +* +CFilter_m_d1_m1_e202 54 55 5.9841E-08 +RFilter_m_d1_m1_e202 54 55 1.9750E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 1.167281E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 1.167281E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 +RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 +* +CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 +RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 +RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 +* +CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 +RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 +RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 +* +CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 +RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 +RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 +* +CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 +RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 4.143536E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 4.143536E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 9.2371E-10 +RFilter_m_d2_m1_e101 84 85 7.8589E-02 +* +CFilter_m_d2_m1_e102 85 86 5.9549E-08 +RFilter_m_d2_m1_e102 85 86 1.9192E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 9.2371E-10 +RFilter_m_d2_m1_e201 89 90 7.8589E-02 +* +CFilter_m_d2_m1_e202 90 91 5.9549E-08 +RFilter_m_d2_m1_e202 90 91 1.9192E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 4.143536E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 4.143536E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 +RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 +* +CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 +RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 +RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 +* +CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 +RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 +RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 +* +CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 +RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 +RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 +* +CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 +RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.766373E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.766373E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 2.0513E-08 +RFilter_m_d3_m1_e101 120 121 3.3143E-03 +* +CFilter_m_d3_m1_e102 121 122 1.4219E-06 +RFilter_m_d3_m1_e102 121 122 7.3248E-04 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 2.0513E-08 +RFilter_m_d3_m1_e201 125 126 3.3143E-03 +* +CFilter_m_d3_m1_e202 126 127 1.4219E-06 +RFilter_m_d3_m1_e202 126 127 7.3248E-04 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 +.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 +.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.766373E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.766373E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 +RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 +RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 +RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 +RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 +RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 +RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 +RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 +RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib new file mode 100644 index 0000000..a18cf2c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib @@ -0,0 +1,602 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield +* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane ++ 2 3 4 5 ++ 6 7 8 9 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 10 7.950673E-02 +Rdc_c2_e1 3 11 7.950673E-02 +Rdc_c3_e1 4 12 5.000000E-02 +Rdc_c4_e1 5 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 6 13 7.950673E-02 +Rdc_c2_e2 7 14 7.950673E-02 +Rdc_c3_e2 8 15 5.000000E-02 +Rdc_c4_e2 9 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 10 19 +Vmeas_domain_decomp_c2_e1 11 22 +Vmeas_domain_decomp_c3_e1 12 25 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 +E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 +E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 13 31 +Vmeas_domain_decomp_c2_e2 14 34 +Vmeas_domain_decomp_c3_e2 15 37 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 +E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 +E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 16 41 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 28 43 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 40 44 1.167281E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 42 45 1.167281E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 48 49 9.2741E-10 +RFilter_m_d1_m1_e101 48 49 7.9126E-02 +* +CFilter_m_d1_m1_e102 49 50 5.9841E-08 +RFilter_m_d1_m1_e102 49 50 1.9750E-02 +* +RFilter_m_d1_m1_e103 50 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 53 54 9.2741E-10 +RFilter_m_d1_m1_e201 53 54 7.9126E-02 +* +CFilter_m_d1_m1_e202 54 55 5.9841E-08 +RFilter_m_d1_m1_e202 54 55 1.9750E-02 +* +RFilter_m_d1_m1_e203 55 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 51 1 56 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.319716E-07 G=0.0 C= 3.170329E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 46 1 57 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.319716E-07 G=0.0 C= 3.170329E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 51 1 1.167281E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 46 1 1.167281E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 +RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 +* +CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 +RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 +* +RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 +RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 +* +CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 +RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 +* +RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 +RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 +* +CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 +RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 +* +RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 +RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 +* +CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 +RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 +* +RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 17 77 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 29 79 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 76 80 4.143536E+01 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 78 81 4.143536E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 84 85 9.2371E-10 +RFilter_m_d2_m1_e101 84 85 7.8589E-02 +* +CFilter_m_d2_m1_e102 85 86 5.9549E-08 +RFilter_m_d2_m1_e102 85 86 1.9192E-02 +* +RFilter_m_d2_m1_e103 86 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 89 90 9.2371E-10 +RFilter_m_d2_m1_e201 89 90 7.8589E-02 +* +CFilter_m_d2_m1_e202 90 91 5.9549E-08 +RFilter_m_d2_m1_e202 90 91 1.9192E-02 +* +RFilter_m_d2_m1_e203 91 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 87 1 92 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.508060E-07 G=0.0 C= 8.783677E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 82 1 93 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.508060E-07 G=0.0 C= 8.783677E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 87 1 4.143536E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 82 1 4.143536E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 +RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 +* +CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 +RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 +* +RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 +RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 +* +CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 +RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 +* +RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 +RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 +* +CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 +RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 +* +RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 +RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 +* +CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 +RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 +* +RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 +* +* +* DOMAIN 3 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e1 18 113 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d3_c1_e2 30 115 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d3_m1_e1 112 116 2.766373E+02 +* +* Modal impedance: end2 +* +RZCm_d3_m1_e2 114 117 2.766373E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 +* +CFilter_m_d3_m1_e101 120 121 2.0513E-08 +RFilter_m_d3_m1_e101 120 121 3.3143E-03 +* +CFilter_m_d3_m1_e102 121 122 1.4219E-06 +RFilter_m_d3_m1_e102 121 122 7.3248E-04 +* +RFilter_m_d3_m1_e103 122 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 +* +CFilter_m_d3_m1_e201 125 126 2.0513E-08 +RFilter_m_d3_m1_e201 125 126 3.3143E-03 +* +CFilter_m_d3_m1_e202 126 127 1.4219E-06 +RFilter_m_d3_m1_e202 126 127 7.3248E-04 +* +RFilter_m_d3_m1_e203 127 1 1.0000E+00 +* +* +ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d3_m1_e1 123 1 128 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.318416E-07 G=0.0 C= 1.217644E-11 +* +* Delay line for negative z propagation +* +T_mz_d3_m1_e2 118 1 129 1 LEN= 1.000000E+00 ++ R=0.0 L= 9.318416E-07 G=0.0 C= 1.217644E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d3_m1_e1 123 1 2.766373E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d3_m1_e2 118 1 2.766373E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 +RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 +* +CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 +RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 +* +RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 +* +CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 +RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 +* +CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 +RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 +* +RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 +RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 +* +CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 +RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 +* +RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 +* +CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 +RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 +* +CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 +RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 +* +RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy new file mode 100644 index 0000000..82fa033 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy @@ -0,0 +1,122 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 448 +LINE Normal 16 448 192 448 +LINE Normal 192 448 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 0 144 16 144 +LINE Normal 0 176 16 176 +LINE 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SpiceOrder 18 +PIN 208 144 RIGHT 16 +PINATTR PinName c5_e2 +PINATTR SpiceOrder 19 +PIN 208 176 RIGHT 16 +PINATTR PinName c6_e2 +PINATTR SpiceOrder 20 +PIN 208 208 RIGHT 16 +PINATTR PinName c7_e2 +PINATTR SpiceOrder 21 +PIN 208 240 RIGHT 16 +PINATTR PinName c8_e2 +PINATTR SpiceOrder 22 +PIN 208 272 RIGHT 16 +PINATTR PinName c9_e2 +PINATTR SpiceOrder 23 +PIN 208 304 RIGHT 16 +PINATTR PinName c10_e2 +PINATTR SpiceOrder 24 +PIN 208 336 RIGHT 16 +PINATTR PinName c11_e2 +PINATTR SpiceOrder 25 +PIN 208 368 RIGHT 16 +PINATTR PinName c12_e2 +PINATTR SpiceOrder 26 +PIN 208 400 RIGHT 16 +PINATTR PinName c13_e2 +PINATTR SpiceOrder 27 +PIN 208 432 RIGHT 16 +PINATTR PinName c14_e2 +PINATTR SpiceOrder 28 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym new file mode 100644 index 0000000..aaa8abc --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym @@ -0,0 +1,327 @@ +v 20050820 1 +L 200 0 200 2800 3 0 0 0 -1 -1 +L 200 2800 1800 2800 3 0 0 0 -1 -1 +L 1800 2800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 2700 200 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 2700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2500 200 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 2500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2300 200 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 2300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2100 200 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 2100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1900 200 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 200 1900 9 6 1 1 0 1 1 +pinlabel=c5_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1700 200 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 200 1700 9 6 1 1 0 1 1 +pinlabel=c6_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1500 200 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 200 1500 9 6 1 1 0 1 1 +pinlabel=c7_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1300 200 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 200 1300 9 6 1 1 0 1 1 +pinlabel=c8_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1100 200 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=9 +T 150 150 5 8 0 0 0 8 1 +pinseq=9 +T 200 1100 9 6 1 1 0 1 1 +pinlabel=c9_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 900 200 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=10 +T 150 150 5 8 0 0 0 8 1 +pinseq=10 +T 200 900 9 6 1 1 0 1 1 +pinlabel=c10_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=11 +T 150 150 5 8 0 0 0 8 1 +pinseq=11 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c11_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=12 +T 150 150 5 8 0 0 0 8 1 +pinseq=12 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c12_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=13 +T 150 150 5 8 0 0 0 8 1 +pinseq=13 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c13_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=14 +T 150 150 5 8 0 0 0 8 1 +pinseq=14 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c14_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2700 1800 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=15 +T 150 150 5 8 0 0 0 8 1 +pinseq=15 +T 1800 2700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2500 1800 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=16 +T 150 150 5 8 0 0 0 8 1 +pinseq=16 +T 1800 2500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2300 1800 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=17 +T 150 150 5 8 0 0 0 8 1 +pinseq=17 +T 1800 2300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2100 1800 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=18 +T 150 150 5 8 0 0 0 8 1 +pinseq=18 +T 1800 2100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1900 1800 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=19 +T 150 150 5 8 0 0 0 8 1 +pinseq=19 +T 1800 1900 9 6 1 1 0 7 1 +pinlabel=c5_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1700 1800 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=20 +T 150 150 5 8 0 0 0 8 1 +pinseq=20 +T 1800 1700 9 6 1 1 0 7 1 +pinlabel=c6_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1500 1800 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=21 +T 150 150 5 8 0 0 0 8 1 +pinseq=21 +T 1800 1500 9 6 1 1 0 7 1 +pinlabel=c7_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1300 1800 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=22 +T 150 150 5 8 0 0 0 8 1 +pinseq=22 +T 1800 1300 9 6 1 1 0 7 1 +pinlabel=c8_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1100 1800 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=23 +T 150 150 5 8 0 0 0 8 1 +pinseq=23 +T 1800 1100 9 6 1 1 0 7 1 +pinlabel=c9_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 900 1800 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=24 +T 150 150 5 8 0 0 0 8 1 +pinseq=24 +T 1800 900 9 6 1 1 0 7 1 +pinlabel=c10_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=25 +T 150 150 5 8 0 0 0 8 1 +pinseq=25 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c11_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=26 +T 150 150 5 8 0 0 0 8 1 +pinseq=26 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c12_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=27 +T 150 150 5 8 0 0 0 8 1 +pinseq=27 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c13_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=28 +T 150 150 5 8 0 0 0 8 1 +pinseq=28 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c14_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 3200 8 10 1 1 0 4 1 +device=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground +T 1000 3000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground +T 200 0 8 10 0 0 0 0 1 +value=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy new file mode 100644 index 0000000..ff43870 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy @@ -0,0 +1,122 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 448 +LINE Normal 16 448 192 448 +LINE Normal 192 448 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 0 144 16 144 +LINE Normal 0 176 16 176 +LINE Normal 0 208 16 208 +LINE Normal 0 240 16 240 +LINE Normal 0 272 16 272 +LINE Normal 0 304 16 304 +LINE Normal 0 336 16 336 +LINE Normal 0 368 16 368 +LINE Normal 0 400 16 400 +LINE Normal 0 432 16 432 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +LINE Normal 208 144 192 144 +LINE Normal 208 176 192 176 +LINE Normal 208 208 192 208 +LINE Normal 208 240 192 240 +LINE Normal 208 272 192 272 +LINE Normal 208 304 192 304 +LINE Normal 208 336 192 336 +LINE Normal 208 368 192 368 +LINE Normal 208 400 192 400 +LINE Normal 208 432 192 432 +WINDOW 3 104 -32 centre 0 +SYMATTR Value LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 0 144 LEFT 16 +PINATTR PinName c5_e1 +PINATTR SpiceOrder 5 +PIN 0 176 LEFT 16 +PINATTR PinName c6_e1 +PINATTR SpiceOrder 6 +PIN 0 208 LEFT 16 +PINATTR PinName c7_e1 +PINATTR SpiceOrder 7 +PIN 0 240 LEFT 16 +PINATTR PinName c8_e1 +PINATTR SpiceOrder 8 +PIN 0 272 LEFT 16 +PINATTR PinName c9_e1 +PINATTR SpiceOrder 9 +PIN 0 304 LEFT 16 +PINATTR PinName c10_e1 +PINATTR SpiceOrder 10 +PIN 0 336 LEFT 16 +PINATTR PinName c11_e1 +PINATTR SpiceOrder 11 +PIN 0 368 LEFT 16 +PINATTR PinName c12_e1 +PINATTR SpiceOrder 12 +PIN 0 400 LEFT 16 +PINATTR PinName c13_e1 +PINATTR SpiceOrder 13 +PIN 0 432 LEFT 16 +PINATTR PinName c14_e1 +PINATTR SpiceOrder 14 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 15 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 16 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 17 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 18 +PIN 208 144 RIGHT 16 +PINATTR PinName c5_e2 +PINATTR SpiceOrder 19 +PIN 208 176 RIGHT 16 +PINATTR PinName c6_e2 +PINATTR SpiceOrder 20 +PIN 208 208 RIGHT 16 +PINATTR PinName c7_e2 +PINATTR SpiceOrder 21 +PIN 208 240 RIGHT 16 +PINATTR PinName c8_e2 +PINATTR SpiceOrder 22 +PIN 208 272 RIGHT 16 +PINATTR PinName c9_e2 +PINATTR SpiceOrder 23 +PIN 208 304 RIGHT 16 +PINATTR PinName c10_e2 +PINATTR SpiceOrder 24 +PIN 208 336 RIGHT 16 +PINATTR PinName c11_e2 +PINATTR SpiceOrder 25 +PIN 208 368 RIGHT 16 +PINATTR PinName c12_e2 +PINATTR SpiceOrder 26 +PIN 208 400 RIGHT 16 +PINATTR PinName c13_e2 +PINATTR SpiceOrder 27 +PIN 208 432 RIGHT 16 +PINATTR PinName c14_e2 +PINATTR SpiceOrder 28 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym new file mode 100644 index 0000000..53f1bf3 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym @@ -0,0 +1,327 @@ +v 20050820 1 +L 200 0 200 2800 3 0 0 0 -1 -1 +L 200 2800 1800 2800 3 0 0 0 -1 -1 +L 1800 2800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 2700 200 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 2700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2500 200 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 2500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2300 200 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 2300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2100 200 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 2100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1900 200 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 200 1900 9 6 1 1 0 1 1 +pinlabel=c5_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1700 200 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 200 1700 9 6 1 1 0 1 1 +pinlabel=c6_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1500 200 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 200 1500 9 6 1 1 0 1 1 +pinlabel=c7_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1300 200 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 200 1300 9 6 1 1 0 1 1 +pinlabel=c8_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1100 200 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=9 +T 150 150 5 8 0 0 0 8 1 +pinseq=9 +T 200 1100 9 6 1 1 0 1 1 +pinlabel=c9_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 900 200 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=10 +T 150 150 5 8 0 0 0 8 1 +pinseq=10 +T 200 900 9 6 1 1 0 1 1 +pinlabel=c10_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=11 +T 150 150 5 8 0 0 0 8 1 +pinseq=11 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c11_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=12 +T 150 150 5 8 0 0 0 8 1 +pinseq=12 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c12_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=13 +T 150 150 5 8 0 0 0 8 1 +pinseq=13 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c13_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=14 +T 150 150 5 8 0 0 0 8 1 +pinseq=14 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c14_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2700 1800 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=15 +T 150 150 5 8 0 0 0 8 1 +pinseq=15 +T 1800 2700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2500 1800 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=16 +T 150 150 5 8 0 0 0 8 1 +pinseq=16 +T 1800 2500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2300 1800 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=17 +T 150 150 5 8 0 0 0 8 1 +pinseq=17 +T 1800 2300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2100 1800 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=18 +T 150 150 5 8 0 0 0 8 1 +pinseq=18 +T 1800 2100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1900 1800 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=19 +T 150 150 5 8 0 0 0 8 1 +pinseq=19 +T 1800 1900 9 6 1 1 0 7 1 +pinlabel=c5_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1700 1800 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=20 +T 150 150 5 8 0 0 0 8 1 +pinseq=20 +T 1800 1700 9 6 1 1 0 7 1 +pinlabel=c6_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1500 1800 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=21 +T 150 150 5 8 0 0 0 8 1 +pinseq=21 +T 1800 1500 9 6 1 1 0 7 1 +pinlabel=c7_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1300 1800 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=22 +T 150 150 5 8 0 0 0 8 1 +pinseq=22 +T 1800 1300 9 6 1 1 0 7 1 +pinlabel=c8_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1100 1800 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=23 +T 150 150 5 8 0 0 0 8 1 +pinseq=23 +T 1800 1100 9 6 1 1 0 7 1 +pinlabel=c9_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 900 1800 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=24 +T 150 150 5 8 0 0 0 8 1 +pinseq=24 +T 1800 900 9 6 1 1 0 7 1 +pinlabel=c10_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=25 +T 150 150 5 8 0 0 0 8 1 +pinseq=25 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c11_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=26 +T 150 150 5 8 0 0 0 8 1 +pinseq=26 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c12_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=27 +T 150 150 5 8 0 0 0 8 1 +pinseq=27 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c13_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=28 +T 150 150 5 8 0 0 0 8 1 +pinseq=28 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c14_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 3200 8 10 1 1 0 4 1 +device=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm +T 1000 3000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm +T 200 0 8 10 0 0 0 0 1 +value=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/README b/MOD_SPACE_CABLES/SPICE/SYMBOL/README new file mode 100644 index 0000000..d0c248d --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/README @@ -0,0 +1 @@ +directory for schematic symbol files. diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy new file mode 100644 index 0000000..ddaee47 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy @@ -0,0 +1,122 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 448 +LINE Normal 16 448 192 448 +LINE Normal 192 448 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 0 144 16 144 +LINE Normal 0 176 16 176 +LINE Normal 0 208 16 208 +LINE Normal 0 240 16 240 +LINE Normal 0 272 16 272 +LINE Normal 0 304 16 304 +LINE Normal 0 336 16 336 +LINE Normal 0 368 16 368 +LINE Normal 0 400 16 400 +LINE Normal 0 432 16 432 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +LINE Normal 208 144 192 144 +LINE Normal 208 176 192 176 +LINE Normal 208 208 192 208 +LINE Normal 208 240 192 240 +LINE Normal 208 272 192 272 +LINE Normal 208 304 192 304 +LINE Normal 208 336 192 336 +LINE Normal 208 368 192 368 +LINE Normal 208 400 192 400 +LINE Normal 208 432 192 432 +WINDOW 3 104 -32 centre 0 +SYMATTR Value SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 0 144 LEFT 16 +PINATTR PinName c5_e1 +PINATTR SpiceOrder 5 +PIN 0 176 LEFT 16 +PINATTR PinName c6_e1 +PINATTR SpiceOrder 6 +PIN 0 208 LEFT 16 +PINATTR PinName c7_e1 +PINATTR SpiceOrder 7 +PIN 0 240 LEFT 16 +PINATTR PinName c8_e1 +PINATTR SpiceOrder 8 +PIN 0 272 LEFT 16 +PINATTR PinName c9_e1 +PINATTR SpiceOrder 9 +PIN 0 304 LEFT 16 +PINATTR PinName c10_e1 +PINATTR SpiceOrder 10 +PIN 0 336 LEFT 16 +PINATTR PinName c11_e1 +PINATTR SpiceOrder 11 +PIN 0 368 LEFT 16 +PINATTR PinName c12_e1 +PINATTR SpiceOrder 12 +PIN 0 400 LEFT 16 +PINATTR PinName c13_e1 +PINATTR SpiceOrder 13 +PIN 0 432 LEFT 16 +PINATTR PinName c14_e1 +PINATTR SpiceOrder 14 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 15 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 16 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 17 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 18 +PIN 208 144 RIGHT 16 +PINATTR PinName c5_e2 +PINATTR SpiceOrder 19 +PIN 208 176 RIGHT 16 +PINATTR PinName c6_e2 +PINATTR SpiceOrder 20 +PIN 208 208 RIGHT 16 +PINATTR PinName c7_e2 +PINATTR SpiceOrder 21 +PIN 208 240 RIGHT 16 +PINATTR PinName c8_e2 +PINATTR SpiceOrder 22 +PIN 208 272 RIGHT 16 +PINATTR PinName c9_e2 +PINATTR SpiceOrder 23 +PIN 208 304 RIGHT 16 +PINATTR PinName c10_e2 +PINATTR SpiceOrder 24 +PIN 208 336 RIGHT 16 +PINATTR PinName c11_e2 +PINATTR SpiceOrder 25 +PIN 208 368 RIGHT 16 +PINATTR PinName c12_e2 +PINATTR SpiceOrder 26 +PIN 208 400 RIGHT 16 +PINATTR PinName c13_e2 +PINATTR SpiceOrder 27 +PIN 208 432 RIGHT 16 +PINATTR PinName c14_e2 +PINATTR SpiceOrder 28 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.sym new file mode 100644 index 0000000..33c0f40 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.sym @@ -0,0 +1,327 @@ +v 20050820 1 +L 200 0 200 2800 3 0 0 0 -1 -1 +L 200 2800 1800 2800 3 0 0 0 -1 -1 +L 1800 2800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 2700 200 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 2700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2500 200 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 2500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2300 200 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 2300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2100 200 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 2100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1900 200 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 200 1900 9 6 1 1 0 1 1 +pinlabel=c5_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1700 200 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 200 1700 9 6 1 1 0 1 1 +pinlabel=c6_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1500 200 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 200 1500 9 6 1 1 0 1 1 +pinlabel=c7_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1300 200 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 200 1300 9 6 1 1 0 1 1 +pinlabel=c8_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1100 200 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=9 +T 150 150 5 8 0 0 0 8 1 +pinseq=9 +T 200 1100 9 6 1 1 0 1 1 +pinlabel=c9_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 900 200 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=10 +T 150 150 5 8 0 0 0 8 1 +pinseq=10 +T 200 900 9 6 1 1 0 1 1 +pinlabel=c10_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=11 +T 150 150 5 8 0 0 0 8 1 +pinseq=11 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c11_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=12 +T 150 150 5 8 0 0 0 8 1 +pinseq=12 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c12_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=13 +T 150 150 5 8 0 0 0 8 1 +pinseq=13 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c13_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=14 +T 150 150 5 8 0 0 0 8 1 +pinseq=14 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c14_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2700 1800 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=15 +T 150 150 5 8 0 0 0 8 1 +pinseq=15 +T 1800 2700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2500 1800 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=16 +T 150 150 5 8 0 0 0 8 1 +pinseq=16 +T 1800 2500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2300 1800 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=17 +T 150 150 5 8 0 0 0 8 1 +pinseq=17 +T 1800 2300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2100 1800 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=18 +T 150 150 5 8 0 0 0 8 1 +pinseq=18 +T 1800 2100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1900 1800 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=19 +T 150 150 5 8 0 0 0 8 1 +pinseq=19 +T 1800 1900 9 6 1 1 0 7 1 +pinlabel=c5_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1700 1800 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=20 +T 150 150 5 8 0 0 0 8 1 +pinseq=20 +T 1800 1700 9 6 1 1 0 7 1 +pinlabel=c6_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1500 1800 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=21 +T 150 150 5 8 0 0 0 8 1 +pinseq=21 +T 1800 1500 9 6 1 1 0 7 1 +pinlabel=c7_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1300 1800 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=22 +T 150 150 5 8 0 0 0 8 1 +pinseq=22 +T 1800 1300 9 6 1 1 0 7 1 +pinlabel=c8_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1100 1800 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=23 +T 150 150 5 8 0 0 0 8 1 +pinseq=23 +T 1800 1100 9 6 1 1 0 7 1 +pinlabel=c9_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 900 1800 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=24 +T 150 150 5 8 0 0 0 8 1 +pinseq=24 +T 1800 900 9 6 1 1 0 7 1 +pinlabel=c10_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=25 +T 150 150 5 8 0 0 0 8 1 +pinseq=25 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c11_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=26 +T 150 150 5 8 0 0 0 8 1 +pinseq=26 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c12_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=27 +T 150 150 5 8 0 0 0 8 1 +pinseq=27 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c13_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=28 +T 150 150 5 8 0 0 0 8 1 +pinseq=28 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c14_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 3200 8 10 1 1 0 4 1 +device=SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground +T 1000 3000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground +T 200 0 8 10 0 0 0 0 1 +value=SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy new file mode 100644 index 0000000..ca42cb6 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy @@ -0,0 +1,122 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 448 +LINE Normal 16 448 192 448 +LINE Normal 192 448 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 0 144 16 144 +LINE Normal 0 176 16 176 +LINE Normal 0 208 16 208 +LINE Normal 0 240 16 240 +LINE Normal 0 272 16 272 +LINE Normal 0 304 16 304 +LINE Normal 0 336 16 336 +LINE Normal 0 368 16 368 +LINE Normal 0 400 16 400 +LINE Normal 0 432 16 432 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +LINE Normal 208 144 192 144 +LINE Normal 208 176 192 176 +LINE Normal 208 208 192 208 +LINE Normal 208 240 192 240 +LINE Normal 208 272 192 272 +LINE Normal 208 304 192 304 +LINE Normal 208 336 192 336 +LINE Normal 208 368 192 368 +LINE Normal 208 400 192 400 +LINE Normal 208 432 192 432 +WINDOW 3 104 -32 centre 0 +SYMATTR Value SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 0 144 LEFT 16 +PINATTR PinName c5_e1 +PINATTR SpiceOrder 5 +PIN 0 176 LEFT 16 +PINATTR PinName c6_e1 +PINATTR SpiceOrder 6 +PIN 0 208 LEFT 16 +PINATTR PinName c7_e1 +PINATTR SpiceOrder 7 +PIN 0 240 LEFT 16 +PINATTR PinName c8_e1 +PINATTR SpiceOrder 8 +PIN 0 272 LEFT 16 +PINATTR PinName c9_e1 +PINATTR SpiceOrder 9 +PIN 0 304 LEFT 16 +PINATTR PinName c10_e1 +PINATTR SpiceOrder 10 +PIN 0 336 LEFT 16 +PINATTR PinName c11_e1 +PINATTR SpiceOrder 11 +PIN 0 368 LEFT 16 +PINATTR PinName c12_e1 +PINATTR SpiceOrder 12 +PIN 0 400 LEFT 16 +PINATTR PinName c13_e1 +PINATTR SpiceOrder 13 +PIN 0 432 LEFT 16 +PINATTR PinName c14_e1 +PINATTR SpiceOrder 14 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 15 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 16 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 17 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 18 +PIN 208 144 RIGHT 16 +PINATTR PinName c5_e2 +PINATTR SpiceOrder 19 +PIN 208 176 RIGHT 16 +PINATTR PinName c6_e2 +PINATTR SpiceOrder 20 +PIN 208 208 RIGHT 16 +PINATTR PinName c7_e2 +PINATTR SpiceOrder 21 +PIN 208 240 RIGHT 16 +PINATTR PinName c8_e2 +PINATTR SpiceOrder 22 +PIN 208 272 RIGHT 16 +PINATTR PinName c9_e2 +PINATTR SpiceOrder 23 +PIN 208 304 RIGHT 16 +PINATTR PinName c10_e2 +PINATTR SpiceOrder 24 +PIN 208 336 RIGHT 16 +PINATTR PinName c11_e2 +PINATTR SpiceOrder 25 +PIN 208 368 RIGHT 16 +PINATTR PinName c12_e2 +PINATTR SpiceOrder 26 +PIN 208 400 RIGHT 16 +PINATTR PinName c13_e2 +PINATTR SpiceOrder 27 +PIN 208 432 RIGHT 16 +PINATTR PinName c14_e2 +PINATTR SpiceOrder 28 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.sym new file mode 100644 index 0000000..6d96199 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.sym @@ -0,0 +1,327 @@ +v 20050820 1 +L 200 0 200 2800 3 0 0 0 -1 -1 +L 200 2800 1800 2800 3 0 0 0 -1 -1 +L 1800 2800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 2700 200 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 2700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2500 200 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 2500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2300 200 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 2300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 2100 200 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 2100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1900 200 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 200 1900 9 6 1 1 0 1 1 +pinlabel=c5_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1700 200 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 200 1700 9 6 1 1 0 1 1 +pinlabel=c6_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1500 200 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 200 1500 9 6 1 1 0 1 1 +pinlabel=c7_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1300 200 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 200 1300 9 6 1 1 0 1 1 +pinlabel=c8_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1100 200 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=9 +T 150 150 5 8 0 0 0 8 1 +pinseq=9 +T 200 1100 9 6 1 1 0 1 1 +pinlabel=c9_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 900 200 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=10 +T 150 150 5 8 0 0 0 8 1 +pinseq=10 +T 200 900 9 6 1 1 0 1 1 +pinlabel=c10_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=11 +T 150 150 5 8 0 0 0 8 1 +pinseq=11 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c11_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=12 +T 150 150 5 8 0 0 0 8 1 +pinseq=12 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c12_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=13 +T 150 150 5 8 0 0 0 8 1 +pinseq=13 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c13_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=14 +T 150 150 5 8 0 0 0 8 1 +pinseq=14 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c14_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2700 1800 2700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=15 +T 150 150 5 8 0 0 0 8 1 +pinseq=15 +T 1800 2700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2500 1800 2500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=16 +T 150 150 5 8 0 0 0 8 1 +pinseq=16 +T 1800 2500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2300 1800 2300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=17 +T 150 150 5 8 0 0 0 8 1 +pinseq=17 +T 1800 2300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 2100 1800 2100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=18 +T 150 150 5 8 0 0 0 8 1 +pinseq=18 +T 1800 2100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1900 1800 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=19 +T 150 150 5 8 0 0 0 8 1 +pinseq=19 +T 1800 1900 9 6 1 1 0 7 1 +pinlabel=c5_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1700 1800 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=20 +T 150 150 5 8 0 0 0 8 1 +pinseq=20 +T 1800 1700 9 6 1 1 0 7 1 +pinlabel=c6_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1500 1800 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=21 +T 150 150 5 8 0 0 0 8 1 +pinseq=21 +T 1800 1500 9 6 1 1 0 7 1 +pinlabel=c7_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1300 1800 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=22 +T 150 150 5 8 0 0 0 8 1 +pinseq=22 +T 1800 1300 9 6 1 1 0 7 1 +pinlabel=c8_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1100 1800 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=23 +T 150 150 5 8 0 0 0 8 1 +pinseq=23 +T 1800 1100 9 6 1 1 0 7 1 +pinlabel=c9_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 900 1800 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=24 +T 150 150 5 8 0 0 0 8 1 +pinseq=24 +T 1800 900 9 6 1 1 0 7 1 +pinlabel=c10_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=25 +T 150 150 5 8 0 0 0 8 1 +pinseq=25 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c11_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=26 +T 150 150 5 8 0 0 0 8 1 +pinseq=26 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c12_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=27 +T 150 150 5 8 0 0 0 8 1 +pinseq=27 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c13_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=28 +T 150 150 5 8 0 0 0 8 1 +pinseq=28 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c14_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 3200 8 10 1 1 0 4 1 +device=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground +T 1000 3000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground +T 200 0 8 10 0 0 0 0 1 +value=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy new file mode 100644 index 0000000..ebcfc2c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy @@ -0,0 +1,42 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 128 +LINE Normal 16 128 192 128 +LINE Normal 192 128 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +WINDOW 3 104 -32 centre 0 +SYMATTR Value STP_AWG_26_ESCC_3901025_V12_ground_plane +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 5 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 6 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 7 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 8 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym new file mode 100644 index 0000000..50dfc89 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym @@ -0,0 +1,107 @@ +v 20050820 1 +L 200 0 200 800 3 0 0 0 -1 -1 +L 200 800 1800 800 3 0 0 0 -1 -1 +L 1800 800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1200 8 10 1 1 0 4 1 +device=STP_AWG_26_ESCC_3901025_V12_ground_plane +T 1000 1000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=STP_AWG_26_ESCC_3901025_V12_ground_plane +T 200 0 8 10 0 0 0 0 1 +value=STP_AWG_26_ESCC_3901025_V12_ground_plane +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy new file mode 100644 index 0000000..398f6be --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy @@ -0,0 +1,42 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 128 +LINE Normal 16 128 192 128 +LINE Normal 192 128 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +WINDOW 3 104 -32 centre 0 +SYMATTR Value STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 5 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 6 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 7 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 8 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym new file mode 100644 index 0000000..606a655 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym @@ -0,0 +1,107 @@ +v 20050820 1 +L 200 0 200 800 3 0 0 0 -1 -1 +L 200 800 1800 800 3 0 0 0 -1 -1 +L 1800 800 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1200 8 10 1 1 0 4 1 +device=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane +T 1000 1000 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane +T 200 0 8 10 0 0 0 0 1 +value=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy new file mode 100644 index 0000000..76138cf --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy @@ -0,0 +1,90 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 320 +LINE Normal 16 320 192 320 +LINE Normal 192 320 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 0 112 16 112 +LINE Normal 0 144 16 144 +LINE Normal 0 176 16 176 +LINE Normal 0 208 16 208 +LINE Normal 0 240 16 240 +LINE Normal 0 272 16 272 +LINE Normal 0 304 16 304 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +LINE Normal 208 112 192 112 +LINE Normal 208 144 192 144 +LINE Normal 208 176 192 176 +LINE Normal 208 208 192 208 +LINE Normal 208 240 192 240 +LINE Normal 208 272 192 272 +LINE Normal 208 304 192 304 +WINDOW 3 104 -32 centre 0 +SYMATTR Value SpaceWire_connector_crosstalk +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SpaceWire_connector_crosstalk_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 0 112 LEFT 16 +PINATTR PinName c4_e1 +PINATTR SpiceOrder 4 +PIN 0 144 LEFT 16 +PINATTR PinName c5_e1 +PINATTR SpiceOrder 5 +PIN 0 176 LEFT 16 +PINATTR PinName c6_e1 +PINATTR SpiceOrder 6 +PIN 0 208 LEFT 16 +PINATTR PinName c7_e1 +PINATTR SpiceOrder 7 +PIN 0 240 LEFT 16 +PINATTR PinName c8_e1 +PINATTR SpiceOrder 8 +PIN 0 272 LEFT 16 +PINATTR PinName c9_e1 +PINATTR SpiceOrder 9 +PIN 0 304 LEFT 16 +PINATTR PinName c10_e1 +PINATTR SpiceOrder 10 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 11 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 12 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 13 +PIN 208 112 RIGHT 16 +PINATTR PinName c4_e2 +PINATTR SpiceOrder 14 +PIN 208 144 RIGHT 16 +PINATTR PinName c5_e2 +PINATTR SpiceOrder 15 +PIN 208 176 RIGHT 16 +PINATTR PinName c6_e2 +PINATTR SpiceOrder 16 +PIN 208 208 RIGHT 16 +PINATTR PinName c7_e2 +PINATTR SpiceOrder 17 +PIN 208 240 RIGHT 16 +PINATTR PinName c8_e2 +PINATTR SpiceOrder 18 +PIN 208 272 RIGHT 16 +PINATTR PinName c9_e2 +PINATTR SpiceOrder 19 +PIN 208 304 RIGHT 16 +PINATTR PinName c10_e2 +PINATTR SpiceOrder 20 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym new file mode 100644 index 0000000..443cab7 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym @@ -0,0 +1,239 @@ +v 20050820 1 +L 200 0 200 2000 3 0 0 0 -1 -1 +L 200 2000 1800 2000 3 0 0 0 -1 -1 +L 1800 2000 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 1900 200 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 1900 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1700 200 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 1700 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1500 200 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 1500 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1300 200 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 200 1300 9 6 1 1 0 1 1 +pinlabel=c4_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 1100 200 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 200 1100 9 6 1 1 0 1 1 +pinlabel=c5_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 900 200 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 200 900 9 6 1 1 0 1 1 +pinlabel=c6_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 700 200 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=7 +T 150 150 5 8 0 0 0 8 1 +pinseq=7 +T 200 700 9 6 1 1 0 1 1 +pinlabel=c7_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=8 +T 150 150 5 8 0 0 0 8 1 +pinseq=8 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c8_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=9 +T 150 150 5 8 0 0 0 8 1 +pinseq=9 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c9_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=10 +T 150 150 5 8 0 0 0 8 1 +pinseq=10 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c10_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1900 1800 1900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=11 +T 150 150 5 8 0 0 0 8 1 +pinseq=11 +T 1800 1900 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1700 1800 1700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=12 +T 150 150 5 8 0 0 0 8 1 +pinseq=12 +T 1800 1700 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1500 1800 1500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=13 +T 150 150 5 8 0 0 0 8 1 +pinseq=13 +T 1800 1500 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1300 1800 1300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=14 +T 150 150 5 8 0 0 0 8 1 +pinseq=14 +T 1800 1300 9 6 1 1 0 7 1 +pinlabel=c4_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 1100 1800 1100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=15 +T 150 150 5 8 0 0 0 8 1 +pinseq=15 +T 1800 1100 9 6 1 1 0 7 1 +pinlabel=c5_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 900 1800 900 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=16 +T 150 150 5 8 0 0 0 8 1 +pinseq=16 +T 1800 900 9 6 1 1 0 7 1 +pinlabel=c6_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 700 1800 700 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=17 +T 150 150 5 8 0 0 0 8 1 +pinseq=17 +T 1800 700 9 6 1 1 0 7 1 +pinlabel=c7_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=18 +T 150 150 5 8 0 0 0 8 1 +pinseq=18 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c8_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=19 +T 150 150 5 8 0 0 0 8 1 +pinseq=19 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c9_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=20 +T 150 150 5 8 0 0 0 8 1 +pinseq=20 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c10_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 2400 8 10 1 1 0 4 1 +device=SpaceWire_connector_crosstalk +T 1000 2200 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=SpaceWire_connector_crosstalk +T 200 0 8 10 0 0 0 0 1 +value=SpaceWire_connector_crosstalk +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SpaceWire_connector_crosstalk_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy new file mode 100644 index 0000000..7a14189 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_20_ESCC_3901002_V34_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym new file mode 100644 index 0000000..a005cd4 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_20_ESCC_3901002_V34_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_20_ESCC_3901002_V34_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_20_ESCC_3901002_V34_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy new file mode 100644 index 0000000..6e9cd63 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_20_ESCC_3901019_V14_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym new file mode 100644 index 0000000..a79bbf6 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_20_ESCC_3901019_V14_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_20_ESCC_3901019_V14_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_20_ESCC_3901019_V14_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy new file mode 100644 index 0000000..bcdea72 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_20_ESCC_3901025_V10_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym new file mode 100644 index 0000000..59ef901 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_20_ESCC_3901025_V10_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_20_ESCC_3901025_V10_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_20_ESCC_3901025_V10_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy new file mode 100644 index 0000000..4c83453 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_22_ESCC_3901002_V33_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym new file mode 100644 index 0000000..2351600 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_22_ESCC_3901002_V33_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_22_ESCC_3901002_V33_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_22_ESCC_3901002_V33_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy new file mode 100644 index 0000000..b0f4182 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_22_ESCC_3901019_V13_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym new file mode 100644 index 0000000..8b2a361 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_22_ESCC_3901019_V13_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_22_ESCC_3901019_V13_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_22_ESCC_3901019_V13_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy new file mode 100644 index 0000000..3df0eff --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_22_ESCC_3901025_V09_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym new file mode 100644 index 0000000..8bdbb42 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_22_ESCC_3901025_V09_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_22_ESCC_3901025_V09_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_22_ESCC_3901025_V09_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy new file mode 100644 index 0000000..2afcf85 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_24_ESCC_3901002_V32_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym new file mode 100644 index 0000000..122cd6f --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_24_ESCC_3901002_V32_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_24_ESCC_3901002_V32_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_24_ESCC_3901002_V32_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy new file mode 100644 index 0000000..c9539d8 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_24_ESCC_3901019_V12_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym new file mode 100644 index 0000000..55616a9 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_24_ESCC_3901019_V12_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_24_ESCC_3901019_V12_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_24_ESCC_3901019_V12_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy new file mode 100644 index 0000000..6fa50ea --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy @@ -0,0 +1,34 @@ +Version 4 +SymbolType CELL +LINE Normal 16 0 16 96 +LINE Normal 16 96 192 96 +LINE Normal 192 96 192 0 +LINE Normal 192 0 16 0 +LINE Normal 0 16 16 16 +LINE Normal 0 48 16 48 +LINE Normal 0 80 16 80 +LINE Normal 208 16 192 16 +LINE Normal 208 48 192 48 +LINE Normal 208 80 192 80 +WINDOW 3 104 -32 centre 0 +SYMATTR Value TP_AWG_24_ESCC_3901025_V08_over_ground +SYMATTR Prefix X +SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib +PIN 0 16 LEFT 16 +PINATTR PinName c1_e1 +PINATTR SpiceOrder 1 +PIN 0 48 LEFT 16 +PINATTR PinName c2_e1 +PINATTR SpiceOrder 2 +PIN 0 80 LEFT 16 +PINATTR PinName c3_e1 +PINATTR SpiceOrder 3 +PIN 208 16 RIGHT 16 +PINATTR PinName c1_e2 +PINATTR SpiceOrder 4 +PIN 208 48 RIGHT 16 +PINATTR PinName c2_e2 +PINATTR SpiceOrder 5 +PIN 208 80 RIGHT 16 +PINATTR PinName c3_e2 +PINATTR SpiceOrder 6 diff --git a/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym new file mode 100644 index 0000000..a688bd7 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym @@ -0,0 +1,85 @@ +v 20050820 1 +L 200 0 200 600 3 0 0 0 -1 -1 +L 200 600 1800 600 3 0 0 0 -1 -1 +L 1800 600 1800 0 3 0 0 0 -1 -1 +L 1800 0 200 0 3 0 0 0 -1 -1 +P 0 500 200 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=1 +T 150 150 5 8 0 0 0 8 1 +pinseq=1 +T 200 500 9 6 1 1 0 1 1 +pinlabel=c1_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 300 200 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=2 +T 150 150 5 8 0 0 0 8 1 +pinseq=2 +T 200 300 9 6 1 1 0 1 1 +pinlabel=c2_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 0 100 200 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=3 +T 150 150 5 8 0 0 0 8 1 +pinseq=3 +T 200 100 9 6 1 1 0 1 1 +pinlabel=c3_e1 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 500 1800 500 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=4 +T 150 150 5 8 0 0 0 8 1 +pinseq=4 +T 1800 500 9 6 1 1 0 7 1 +pinlabel=c1_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 300 1800 300 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=5 +T 150 150 5 8 0 0 0 8 1 +pinseq=5 +T 1800 300 9 6 1 1 0 7 1 +pinlabel=c2_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +P 2000 100 1800 100 1 0 0 +{ +T 150 250 5 8 0 0 0 6 1 +pinnumber=6 +T 150 150 5 8 0 0 0 8 1 +pinseq=6 +T 1800 100 9 6 1 1 0 7 1 +pinlabel=c3_e2 +T 200 200 5 8 0 0 0 2 1 +pintype=pas +} +T 1000 1000 8 10 1 1 0 4 1 +device=TP_AWG_24_ESCC_3901025_V08_over_ground +T 1000 800 5 10 1 0 0 4 1 +refdes=X? +T 200 0 8 10 0 0 0 4 1 +description=TP_AWG_24_ESCC_3901025_V08_over_ground +T 200 0 8 10 0 0 0 0 1 +value=TP_AWG_24_ESCC_3901025_V08_over_ground +T 200 0 8 10 0 0 0 0 1 +file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib +T 200 0 8 10 0 0 0 0 1 +numslots=0 +T 200 0 8 10 0 0 0 0 1 +symversion=0.1 diff --git a/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec new file mode 100644 index 0000000..3a9845b --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec @@ -0,0 +1,66 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +SpaceWire_connector +# cable bundle length (m) +0.02 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model +0.0 End 1 voltage source list +0.0 +0.0 +0.0 +0.5 +0.0 +0.0 +0.0 +-0.5 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +50.0 +50.0 +50.0 +50.0 +50.0 +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +50.0 +50.0 +50.0 +50.0 +50.0 +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e3 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +2 7 2 +dB # output type (lin or dB) + diff --git a/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib new file mode 100644 index 0000000..0331ea1 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib @@ -0,0 +1,1196 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +* End 2 nodes: +* +* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +.subckt SpaceWire_connector_crosstalk ++ 2 3 4 5 6 7 8 9 10 11 ++ 12 13 14 15 16 17 18 19 20 21 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 22 1.000000E-10 +Rdc_c2_e1 3 23 1.000000E-10 +Rdc_c3_e1 4 24 1.000000E-10 +Rdc_c4_e1 5 25 1.000000E-10 +Rdc_c5_e1 6 26 1.000000E-10 +Rdc_c6_e1 7 27 1.000000E-10 +Rdc_c7_e1 8 28 1.000000E-10 +Rdc_c8_e1 9 29 1.000000E-10 +Rdc_c9_e1 10 30 1.000000E-10 +Rdc_c10_e1 11 1 1.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 12 31 1.000000E-10 +Rdc_c2_e2 13 32 1.000000E-10 +Rdc_c3_e2 14 33 1.000000E-10 +Rdc_c4_e2 15 34 1.000000E-10 +Rdc_c5_e2 16 35 1.000000E-10 +Rdc_c6_e2 17 36 1.000000E-10 +Rdc_c7_e2 18 37 1.000000E-10 +Rdc_c8_e2 19 38 1.000000E-10 +Rdc_c9_e2 20 39 1.000000E-10 +Rdc_c10_e2 21 1 1.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 22 49 +Vmeas_domain_decomp_c2_e1 23 58 +Vmeas_domain_decomp_c3_e1 24 67 +Vmeas_domain_decomp_c4_e1 25 76 +Vmeas_domain_decomp_c5_e1 26 85 +Vmeas_domain_decomp_c6_e1 27 94 +Vmeas_domain_decomp_c7_e1 28 103 +Vmeas_domain_decomp_c8_e1 29 112 +Vmeas_domain_decomp_c9_e1 30 121 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 +E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 +E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 +E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 +E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 +E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 +E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 +E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 +E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 31 139 +Vmeas_domain_decomp_c2_e2 32 148 +Vmeas_domain_decomp_c3_e2 33 157 +Vmeas_domain_decomp_c4_e2 34 166 +Vmeas_domain_decomp_c5_e2 35 175 +Vmeas_domain_decomp_c6_e2 36 184 +Vmeas_domain_decomp_c7_e2 37 193 +Vmeas_domain_decomp_c8_e2 38 202 +Vmeas_domain_decomp_c9_e2 39 211 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 +E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 +E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 +E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 +E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 +E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 +E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 +E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 +E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 40 229 +Vmeas_mode_decomp_d1_c2_e1 41 238 +Vmeas_mode_decomp_d1_c3_e1 42 247 +Vmeas_mode_decomp_d1_c4_e1 43 256 +Vmeas_mode_decomp_d1_c5_e1 44 265 +Vmeas_mode_decomp_d1_c6_e1 45 274 +Vmeas_mode_decomp_d1_c7_e1 46 283 +Vmeas_mode_decomp_d1_c8_e1 47 292 +Vmeas_mode_decomp_d1_c9_e1 48 301 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 130 319 +Vmeas_mode_decomp_d1_c2_e2 131 328 +Vmeas_mode_decomp_d1_c3_e2 132 337 +Vmeas_mode_decomp_d1_c4_e2 133 346 +Vmeas_mode_decomp_d1_c5_e2 134 355 +Vmeas_mode_decomp_d1_c6_e2 135 364 +Vmeas_mode_decomp_d1_c7_e2 136 373 +Vmeas_mode_decomp_d1_c8_e2 137 382 +Vmeas_mode_decomp_d1_c9_e2 138 391 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 220 400 3.950359E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 310 401 3.950359E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m1_e1 400 1 402 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m1_e2 401 1 403 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 403 1 404 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 402 1 405 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 403 1 3.950359E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 402 1 3.950359E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 +E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 +E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m2_e1 221 408 1.397037E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m2_e2 311 409 1.397037E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m2_e1 408 1 410 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m2_e2 409 1 411 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m2_e1 411 1 412 1 LTRA_T_pz_d1_m2_e1 +.MODEL LTRA_T_pz_d1_m2_e1 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m2_e2 410 1 413 1 LTRA_T_mz_d1_m2_e2 +.MODEL LTRA_T_mz_d1_m2_e2 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m2_e1 411 1 1.397037E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m2_e2 410 1 1.397037E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 +E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 +E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m3_e1 222 416 5.205832E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m3_e2 312 417 5.205832E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m3_e1 416 1 418 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m3_e2 417 1 419 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m3_e1 419 1 420 1 LTRA_T_pz_d1_m3_e1 +.MODEL LTRA_T_pz_d1_m3_e1 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m3_e2 418 1 421 1 LTRA_T_mz_d1_m3_e2 +.MODEL LTRA_T_mz_d1_m3_e2 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m3_e1 419 1 5.205832E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m3_e2 418 1 5.205832E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 +E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 +E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m4_e1 223 424 6.249299E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m4_e2 313 425 6.249299E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m4_e1 424 1 426 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m4_e2 425 1 427 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m4_e1 427 1 428 1 LTRA_T_pz_d1_m4_e1 +.MODEL LTRA_T_pz_d1_m4_e1 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m4_e2 426 1 429 1 LTRA_T_mz_d1_m4_e2 +.MODEL LTRA_T_mz_d1_m4_e2 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m4_e1 427 1 6.249299E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m4_e2 426 1 6.249299E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 +E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 +E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m5_e1 224 432 4.461415E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m5_e2 314 433 4.461415E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m5_e1 432 1 434 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m5_e2 433 1 435 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m5_e1 435 1 436 1 LTRA_T_pz_d1_m5_e1 +.MODEL LTRA_T_pz_d1_m5_e1 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m5_e2 434 1 437 1 LTRA_T_mz_d1_m5_e2 +.MODEL LTRA_T_mz_d1_m5_e2 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m5_e1 435 1 4.461415E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m5_e2 434 1 4.461415E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 +E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 +E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m6_e1 225 440 6.308057E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m6_e2 315 441 6.308057E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m6_e1 440 1 442 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m6_e2 441 1 443 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m6_e1 443 1 444 1 LTRA_T_pz_d1_m6_e1 +.MODEL LTRA_T_pz_d1_m6_e1 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m6_e2 442 1 445 1 LTRA_T_mz_d1_m6_e2 +.MODEL LTRA_T_mz_d1_m6_e2 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m6_e1 443 1 6.308057E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m6_e2 442 1 6.308057E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 +E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 +E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m7_e1 226 448 7.357362E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m7_e2 316 449 7.357362E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m7_e1 448 1 450 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m7_e2 449 1 451 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m7_e1 451 1 452 1 LTRA_T_pz_d1_m7_e1 +.MODEL LTRA_T_pz_d1_m7_e1 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m7_e2 450 1 453 1 LTRA_T_mz_d1_m7_e2 +.MODEL LTRA_T_mz_d1_m7_e2 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m7_e1 451 1 7.357362E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m7_e2 450 1 7.357362E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 +E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 +E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m8_e1 227 456 4.470943E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m8_e2 317 457 4.470943E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m8_e1 456 1 458 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m8_e2 457 1 459 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m8_e1 459 1 460 1 LTRA_T_pz_d1_m8_e1 +.MODEL LTRA_T_pz_d1_m8_e1 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m8_e2 458 1 461 1 LTRA_T_mz_d1_m8_e2 +.MODEL LTRA_T_mz_d1_m8_e2 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m8_e1 459 1 4.470943E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m8_e2 458 1 4.470943E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 +E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 +E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m9_e1 228 464 4.743728E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m9_e2 318 465 4.743728E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m9_e1 464 1 466 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m9_e2 465 1 467 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m9_e1 467 1 468 1 LTRA_T_pz_d1_m9_e1 +.MODEL LTRA_T_pz_d1_m9_e1 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m9_e2 466 1 469 1 LTRA_T_mz_d1_m9_e2 +.MODEL LTRA_T_mz_d1_m9_e2 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m9_e1 467 1 4.743728E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m9_e2 466 1 4.743728E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 +E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 +E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib new file mode 100644 index 0000000..8374dee --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib @@ -0,0 +1,1196 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +* End 2 nodes: +* +* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +.subckt SpaceWire_connector_crosstalk ++ 2 3 4 5 6 7 8 9 10 11 ++ 12 13 14 15 16 17 18 19 20 21 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 22 1.000000E-10 +Rdc_c2_e1 3 23 1.000000E-10 +Rdc_c3_e1 4 24 1.000000E-10 +Rdc_c4_e1 5 25 1.000000E-10 +Rdc_c5_e1 6 26 1.000000E-10 +Rdc_c6_e1 7 27 1.000000E-10 +Rdc_c7_e1 8 28 1.000000E-10 +Rdc_c8_e1 9 29 1.000000E-10 +Rdc_c9_e1 10 30 1.000000E-10 +Rdc_c10_e1 11 1 1.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 12 31 1.000000E-10 +Rdc_c2_e2 13 32 1.000000E-10 +Rdc_c3_e2 14 33 1.000000E-10 +Rdc_c4_e2 15 34 1.000000E-10 +Rdc_c5_e2 16 35 1.000000E-10 +Rdc_c6_e2 17 36 1.000000E-10 +Rdc_c7_e2 18 37 1.000000E-10 +Rdc_c8_e2 19 38 1.000000E-10 +Rdc_c9_e2 20 39 1.000000E-10 +Rdc_c10_e2 21 1 1.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 22 49 +Vmeas_domain_decomp_c2_e1 23 58 +Vmeas_domain_decomp_c3_e1 24 67 +Vmeas_domain_decomp_c4_e1 25 76 +Vmeas_domain_decomp_c5_e1 26 85 +Vmeas_domain_decomp_c6_e1 27 94 +Vmeas_domain_decomp_c7_e1 28 103 +Vmeas_domain_decomp_c8_e1 29 112 +Vmeas_domain_decomp_c9_e1 30 121 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 +E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 +E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 +E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 +E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 +E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 +E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 +E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 +E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 31 139 +Vmeas_domain_decomp_c2_e2 32 148 +Vmeas_domain_decomp_c3_e2 33 157 +Vmeas_domain_decomp_c4_e2 34 166 +Vmeas_domain_decomp_c5_e2 35 175 +Vmeas_domain_decomp_c6_e2 36 184 +Vmeas_domain_decomp_c7_e2 37 193 +Vmeas_domain_decomp_c8_e2 38 202 +Vmeas_domain_decomp_c9_e2 39 211 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 +E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 +E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 +E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 +E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 +E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 +E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 +E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 +E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 40 229 +Vmeas_mode_decomp_d1_c2_e1 41 238 +Vmeas_mode_decomp_d1_c3_e1 42 247 +Vmeas_mode_decomp_d1_c4_e1 43 256 +Vmeas_mode_decomp_d1_c5_e1 44 265 +Vmeas_mode_decomp_d1_c6_e1 45 274 +Vmeas_mode_decomp_d1_c7_e1 46 283 +Vmeas_mode_decomp_d1_c8_e1 47 292 +Vmeas_mode_decomp_d1_c9_e1 48 301 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 130 319 +Vmeas_mode_decomp_d1_c2_e2 131 328 +Vmeas_mode_decomp_d1_c3_e2 132 337 +Vmeas_mode_decomp_d1_c4_e2 133 346 +Vmeas_mode_decomp_d1_c5_e2 134 355 +Vmeas_mode_decomp_d1_c6_e2 135 364 +Vmeas_mode_decomp_d1_c7_e2 136 373 +Vmeas_mode_decomp_d1_c8_e2 137 382 +Vmeas_mode_decomp_d1_c9_e2 138 391 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 220 400 3.950359E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 310 401 3.950359E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m1_e1 400 1 402 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m1_e2 401 1 403 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 403 1 404 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 402 1 405 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 403 1 3.950359E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 402 1 3.950359E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 +E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 +E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m2_e1 221 408 1.397037E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m2_e2 311 409 1.397037E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m2_e1 408 1 410 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m2_e2 409 1 411 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m2_e1 411 1 412 1 LTRA_T_pz_d1_m2_e1 +.MODEL LTRA_T_pz_d1_m2_e1 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m2_e2 410 1 413 1 LTRA_T_mz_d1_m2_e2 +.MODEL LTRA_T_mz_d1_m2_e2 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m2_e1 411 1 1.397037E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m2_e2 410 1 1.397037E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 +E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 +E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m3_e1 222 416 5.205832E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m3_e2 312 417 5.205832E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m3_e1 416 1 418 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m3_e2 417 1 419 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m3_e1 419 1 420 1 LTRA_T_pz_d1_m3_e1 +.MODEL LTRA_T_pz_d1_m3_e1 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m3_e2 418 1 421 1 LTRA_T_mz_d1_m3_e2 +.MODEL LTRA_T_mz_d1_m3_e2 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m3_e1 419 1 5.205832E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m3_e2 418 1 5.205832E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 +E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 +E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m4_e1 223 424 6.249299E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m4_e2 313 425 6.249299E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m4_e1 424 1 426 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m4_e2 425 1 427 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m4_e1 427 1 428 1 LTRA_T_pz_d1_m4_e1 +.MODEL LTRA_T_pz_d1_m4_e1 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m4_e2 426 1 429 1 LTRA_T_mz_d1_m4_e2 +.MODEL LTRA_T_mz_d1_m4_e2 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m4_e1 427 1 6.249299E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m4_e2 426 1 6.249299E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 +E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 +E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m5_e1 224 432 4.461415E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m5_e2 314 433 4.461415E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m5_e1 432 1 434 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m5_e2 433 1 435 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m5_e1 435 1 436 1 LTRA_T_pz_d1_m5_e1 +.MODEL LTRA_T_pz_d1_m5_e1 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m5_e2 434 1 437 1 LTRA_T_mz_d1_m5_e2 +.MODEL LTRA_T_mz_d1_m5_e2 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m5_e1 435 1 4.461415E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m5_e2 434 1 4.461415E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 +E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 +E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m6_e1 225 440 6.308057E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m6_e2 315 441 6.308057E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m6_e1 440 1 442 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m6_e2 441 1 443 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m6_e1 443 1 444 1 LTRA_T_pz_d1_m6_e1 +.MODEL LTRA_T_pz_d1_m6_e1 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m6_e2 442 1 445 1 LTRA_T_mz_d1_m6_e2 +.MODEL LTRA_T_mz_d1_m6_e2 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m6_e1 443 1 6.308057E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m6_e2 442 1 6.308057E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 +E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 +E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m7_e1 226 448 7.357362E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m7_e2 316 449 7.357362E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m7_e1 448 1 450 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m7_e2 449 1 451 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m7_e1 451 1 452 1 LTRA_T_pz_d1_m7_e1 +.MODEL LTRA_T_pz_d1_m7_e1 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m7_e2 450 1 453 1 LTRA_T_mz_d1_m7_e2 +.MODEL LTRA_T_mz_d1_m7_e2 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m7_e1 451 1 7.357362E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m7_e2 450 1 7.357362E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 +E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 +E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m8_e1 227 456 4.470943E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m8_e2 317 457 4.470943E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m8_e1 456 1 458 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m8_e2 457 1 459 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m8_e1 459 1 460 1 LTRA_T_pz_d1_m8_e1 +.MODEL LTRA_T_pz_d1_m8_e1 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m8_e2 458 1 461 1 LTRA_T_mz_d1_m8_e2 +.MODEL LTRA_T_mz_d1_m8_e2 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m8_e1 459 1 4.470943E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m8_e2 458 1 4.470943E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 +E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 +E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m9_e1 228 464 4.743728E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m9_e2 318 465 4.743728E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m9_e1 464 1 466 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m9_e2 465 1 467 1 1.000000E+00 +* +* Delay line for positive z propagation +* +O_T_pz_d1_m9_e1 467 1 468 1 LTRA_T_pz_d1_m9_e1 +.MODEL LTRA_T_pz_d1_m9_e1 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m9_e2 466 1 469 1 LTRA_T_mz_d1_m9_e2 +.MODEL LTRA_T_mz_d1_m9_e2 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m9_e1 467 1 4.743728E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m9_e2 466 1 4.743728E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 +E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 +E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib new file mode 100644 index 0000000..ad693c2 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib @@ -0,0 +1,1196 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +* End 2 nodes: +* +* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor +* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor +* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor +* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor +* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor +* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor +* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor +* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor +* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor +* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield +* +.subckt SpaceWire_connector_crosstalk ++ 2 3 4 5 6 7 8 9 10 11 ++ 12 13 14 15 16 17 18 19 20 21 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 22 1.000000E-10 +Rdc_c2_e1 3 23 1.000000E-10 +Rdc_c3_e1 4 24 1.000000E-10 +Rdc_c4_e1 5 25 1.000000E-10 +Rdc_c5_e1 6 26 1.000000E-10 +Rdc_c6_e1 7 27 1.000000E-10 +Rdc_c7_e1 8 28 1.000000E-10 +Rdc_c8_e1 9 29 1.000000E-10 +Rdc_c9_e1 10 30 1.000000E-10 +Rdc_c10_e1 11 1 1.000000E-10 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 12 31 1.000000E-10 +Rdc_c2_e2 13 32 1.000000E-10 +Rdc_c3_e2 14 33 1.000000E-10 +Rdc_c4_e2 15 34 1.000000E-10 +Rdc_c5_e2 16 35 1.000000E-10 +Rdc_c6_e2 17 36 1.000000E-10 +Rdc_c7_e2 18 37 1.000000E-10 +Rdc_c8_e2 19 38 1.000000E-10 +Rdc_c9_e2 20 39 1.000000E-10 +Rdc_c10_e2 21 1 1.000000E-10 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 22 49 +Vmeas_domain_decomp_c2_e1 23 58 +Vmeas_domain_decomp_c3_e1 24 67 +Vmeas_domain_decomp_c4_e1 25 76 +Vmeas_domain_decomp_c5_e1 26 85 +Vmeas_domain_decomp_c6_e1 27 94 +Vmeas_domain_decomp_c7_e1 28 103 +Vmeas_domain_decomp_c8_e1 29 112 +Vmeas_domain_decomp_c9_e1 30 121 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 +E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 +E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 +E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 +E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 +E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 +E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 +E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 +E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 +E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 +E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 +E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 +E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 +E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 +E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 +E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 +E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 +E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 +E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 +E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 +E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 +E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 +E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 +E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 +E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 +E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 +E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 +E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 +E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 +E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 +E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 +E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 +E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 +E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 +E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 +E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 +E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 +E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 +E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 +E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 +E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 +E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 +E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 +E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 +E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 +E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 +E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 +E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 +E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 +E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 +E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 +E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 +E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 +E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 +E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 +E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 +E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 +E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 +E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 +E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 +E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 +E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 +E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 +E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 +E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 +F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 +F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 +F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 +F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 +F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 +F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 +F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 +F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 +F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 +F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 +F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 +F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 +F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 +F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 +F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 +F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 31 139 +Vmeas_domain_decomp_c2_e2 32 148 +Vmeas_domain_decomp_c3_e2 33 157 +Vmeas_domain_decomp_c4_e2 34 166 +Vmeas_domain_decomp_c5_e2 35 175 +Vmeas_domain_decomp_c6_e2 36 184 +Vmeas_domain_decomp_c7_e2 37 193 +Vmeas_domain_decomp_c8_e2 38 202 +Vmeas_domain_decomp_c9_e2 39 211 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 +E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 +E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 +E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 +E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 +E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 +E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 +E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 +E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 +E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 +E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 +E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 +E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 +E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 +E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 +E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 +E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 +E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 +E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 +E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 +E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 +E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 +E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 +E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 +E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 +E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 +E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 +E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 +E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 +E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 +E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 +E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 +E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 +E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 +E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 +E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 +E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 +E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 +E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 +E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 +E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 +E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 +E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 +E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 +E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 +E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 +E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 +E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 +E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 +E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 +E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 +E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 +E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 +E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 +E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 +E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 +E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 +E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 +E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 +E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 +E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 +E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 +E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 +E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 +E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 +E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 +E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 +E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 +E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 +E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 +E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 +E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 +E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 +E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 +E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 +E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 +E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 +E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 +E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 +E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 +E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 +F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 +F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 +F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 +F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 +F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 +F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 +F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 +F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 +F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 +F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 +F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 +F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 +F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 +F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 +F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 +F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 40 229 +Vmeas_mode_decomp_d1_c2_e1 41 238 +Vmeas_mode_decomp_d1_c3_e1 42 247 +Vmeas_mode_decomp_d1_c4_e1 43 256 +Vmeas_mode_decomp_d1_c5_e1 44 265 +Vmeas_mode_decomp_d1_c6_e1 45 274 +Vmeas_mode_decomp_d1_c7_e1 46 283 +Vmeas_mode_decomp_d1_c8_e1 47 292 +Vmeas_mode_decomp_d1_c9_e1 48 301 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 130 319 +Vmeas_mode_decomp_d1_c2_e2 131 328 +Vmeas_mode_decomp_d1_c3_e2 132 337 +Vmeas_mode_decomp_d1_c4_e2 133 346 +Vmeas_mode_decomp_d1_c5_e2 134 355 +Vmeas_mode_decomp_d1_c6_e2 135 364 +Vmeas_mode_decomp_d1_c7_e2 136 373 +Vmeas_mode_decomp_d1_c8_e2 137 382 +Vmeas_mode_decomp_d1_c9_e2 138 391 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 +E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 +E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 +E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 +E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 +E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 +E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 +E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 +E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 +E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 +E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 +E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 +E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 +E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 +E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 +E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 +E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 +E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 +E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 +E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 +E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 +E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 +E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 +E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 +E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 +E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 +E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 +E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 +E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 +E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 +E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 +E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 +E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 +E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 +E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 +E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 +E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 +E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 +E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 +E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 +E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 +E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 +E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 +E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 +E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 +E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 +E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 +E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 +E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 +E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 +E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 +E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 +E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 +E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 +E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 +E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 +E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 +E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 +E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 +E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 +E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 +E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 +E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 +E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 +E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 +E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 +E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 +E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 +E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 +E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 +E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 +E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 +E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 +E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 +E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 +E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 +E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 +E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 +E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 +E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 +E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 +F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 +F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 +F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 +F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 +F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 +F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 +F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 +F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 +F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 +F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 +F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 +F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 +F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 +F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 +F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 +F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 +F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 +F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 +F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 +F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 +F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 +F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 +F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 +F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 +F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 +F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 +F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 +F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 +F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 +F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 +F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 +F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 +F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 +F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 +F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 +F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 +F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 +F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 +F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 +F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 +F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 +F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 +F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 +F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 +F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 +F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 +F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 +F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 +F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 +F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 +F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 +F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 +F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 +F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 +F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 +F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 +F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 +F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 +F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 +F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 +F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 +F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 +F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 +F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 +F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 +F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 +F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 +F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 +F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 +F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 +F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 +F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 +F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 +F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 +F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 +F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 +F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 +F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 +F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 +F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 220 400 3.950359E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 310 401 3.950359E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m1_e1 400 1 402 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m1_e2 401 1 403 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 403 1 404 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.317698E-07 G=0.0 C= 8.443892E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 402 1 405 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.317698E-07 G=0.0 C= 8.443892E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 403 1 3.950359E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 402 1 3.950359E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 +E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 +E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m2_e1 221 408 1.397037E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m2_e2 311 409 1.397037E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m2_e1 408 1 410 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m2_e2 409 1 411 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m2_e1 411 1 412 1 LEN= 2.000000E-02 ++ R=0.0 L= 4.660014E-07 G=0.0 C= 2.387654E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m2_e2 410 1 413 1 LEN= 2.000000E-02 ++ R=0.0 L= 4.660014E-07 G=0.0 C= 2.387654E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m2_e1 411 1 1.397037E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m2_e2 410 1 1.397037E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 +E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 +E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m3_e1 222 416 5.205832E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m3_e2 312 417 5.205832E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m3_e1 416 1 418 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m3_e2 417 1 419 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m3_e1 419 1 420 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.736479E-07 G=0.0 C= 6.407508E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m3_e2 418 1 421 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.736479E-07 G=0.0 C= 6.407508E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m3_e1 419 1 5.205832E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m3_e2 418 1 5.205832E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 +E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 +E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m4_e1 223 424 6.249299E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m4_e2 313 425 6.249299E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m4_e1 424 1 426 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m4_e2 425 1 427 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m4_e1 427 1 428 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.084542E-07 G=0.0 C= 5.337624E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m4_e2 426 1 429 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.084542E-07 G=0.0 C= 5.337624E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m4_e1 427 1 6.249299E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m4_e2 426 1 6.249299E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 +E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 +E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m5_e1 224 432 4.461415E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m5_e2 314 433 4.461415E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m5_e1 432 1 434 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m5_e2 433 1 435 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m5_e1 435 1 436 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.488168E-07 G=0.0 C= 7.476643E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m5_e2 434 1 437 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.488168E-07 G=0.0 C= 7.476643E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m5_e1 435 1 4.461415E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m5_e2 434 1 4.461415E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 +E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 +E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m6_e1 225 440 6.308057E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m6_e2 315 441 6.308057E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m6_e1 440 1 442 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m6_e2 441 1 443 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m6_e1 443 1 444 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.104141E-07 G=0.0 C= 5.287906E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m6_e2 442 1 445 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.104141E-07 G=0.0 C= 5.287906E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m6_e1 443 1 6.308057E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m6_e2 442 1 6.308057E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 +E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 +E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m7_e1 226 448 7.357362E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m7_e2 316 449 7.357362E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m7_e1 448 1 450 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m7_e2 449 1 451 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m7_e1 451 1 452 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.454152E-07 G=0.0 C= 4.533746E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m7_e2 450 1 453 1 LEN= 2.000000E-02 ++ R=0.0 L= 2.454152E-07 G=0.0 C= 4.533746E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m7_e1 451 1 7.357362E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m7_e2 450 1 7.357362E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 +E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 +E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m8_e1 227 456 4.470943E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m8_e2 317 457 4.470943E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m8_e1 456 1 458 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m8_e2 457 1 459 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m8_e1 459 1 460 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.491346E-07 G=0.0 C= 7.460710E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m8_e2 458 1 461 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.491346E-07 G=0.0 C= 7.460710E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m8_e1 459 1 4.470943E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m8_e2 458 1 4.470943E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 +E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 +E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m9_e1 228 464 4.743728E+01 +* +* Modal impedance: end2 +* +RZCm_d1_m9_e2 318 465 4.743728E+01 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +E_m_d1_m9_e1 464 1 466 1 1.000000E+00 +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +E_m_d1_m9_e2 465 1 467 1 1.000000E+00 +* +* Delay line for positive z propagation +* +T_pz_d1_m9_e1 467 1 468 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.582337E-07 G=0.0 C= 7.031687E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m9_e2 466 1 469 1 LEN= 2.000000E-02 ++ R=0.0 L= 1.582337E-07 G=0.0 C= 7.031687E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m9_e1 467 1 4.743728E+01 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m9_e2 466 1 4.743728E+01 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 +E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 +* +* Delay line frequency dependent controlled sources for negative z propagation +* +E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 +E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec new file mode 100644 index 0000000..93debbc --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_20_ESCC_3901002_V34_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib new file mode 100644 index 0000000..d75f038 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901002_V34_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.690138E-02 +Rdc_c2_e1 3 9 1.690138E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.690138E-02 +Rdc_c2_e2 6 11 1.690138E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.212323E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.212323E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.7662E-08 +RFilter_m_d1_m1_e101 32 33 1.6922E-02 +* +CFilter_m_d1_m1_e102 33 34 2.2511E-06 +RFilter_m_d1_m1_e102 33 34 4.1351E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.7662E-08 +RFilter_m_d1_m1_e201 37 38 1.6922E-02 +* +CFilter_m_d1_m1_e202 38 39 2.2511E-06 +RFilter_m_d1_m1_e202 38 39 4.1351E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.212323E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.212323E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.002422E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.002422E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8726E-07 +RFilter_m_d2_m1_e101 68 69 3.3895E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1347E-05 +RFilter_m_d2_m1_e102 69 70 8.2611E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8726E-07 +RFilter_m_d2_m1_e201 73 74 3.3895E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1347E-05 +RFilter_m_d2_m1_e202 74 75 8.2611E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.002422E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.002422E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib new file mode 100644 index 0000000..db746f3 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901002_V34_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.690138E-02 +Rdc_c2_e1 3 9 1.690138E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.690138E-02 +Rdc_c2_e2 6 11 1.690138E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.212323E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.212323E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.7662E-08 +RFilter_m_d1_m1_e101 32 33 1.6922E-02 +* +CFilter_m_d1_m1_e102 33 34 2.2511E-06 +RFilter_m_d1_m1_e102 33 34 4.1351E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.7662E-08 +RFilter_m_d1_m1_e201 37 38 1.6922E-02 +* +CFilter_m_d1_m1_e202 38 39 2.2511E-06 +RFilter_m_d1_m1_e202 38 39 4.1351E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.212323E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.212323E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.002422E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.002422E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8726E-07 +RFilter_m_d2_m1_e101 68 69 3.3895E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1347E-05 +RFilter_m_d2_m1_e102 69 70 8.2611E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8726E-07 +RFilter_m_d2_m1_e201 73 74 3.3895E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1347E-05 +RFilter_m_d2_m1_e202 74 75 8.2611E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.002422E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.002422E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib new file mode 100644 index 0000000..8eab036 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901002_V34_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.690138E-02 +Rdc_c2_e1 3 9 1.690138E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.690138E-02 +Rdc_c2_e2 6 11 1.690138E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.212323E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.212323E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.7662E-08 +RFilter_m_d1_m1_e101 32 33 1.6922E-02 +* +CFilter_m_d1_m1_e102 33 34 2.2511E-06 +RFilter_m_d1_m1_e102 33 34 4.1351E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.7662E-08 +RFilter_m_d1_m1_e201 37 38 1.6922E-02 +* +CFilter_m_d1_m1_e202 38 39 2.2511E-06 +RFilter_m_d1_m1_e202 38 39 4.1351E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.043875E-07 G=0.0 C= 2.751446E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.043875E-07 G=0.0 C= 2.751446E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.212323E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.212323E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.002422E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.002422E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8726E-07 +RFilter_m_d2_m1_e101 68 69 3.3895E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1347E-05 +RFilter_m_d2_m1_e102 69 70 8.2611E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8726E-07 +RFilter_m_d2_m1_e201 73 74 3.3895E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1347E-05 +RFilter_m_d2_m1_e202 74 75 8.2611E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.020445E-06 G=0.0 C= 1.131999E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.020445E-06 G=0.0 C= 1.131999E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.002422E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.002422E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec new file mode 100644 index 0000000..0f180f2 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_20_ESCC_3901019_V14_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib new file mode 100644 index 0000000..0ccf4c0 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901019_V14_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.380492E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.380492E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 4.2140E-08 +RFilter_m_d1_m1_e101 32 33 1.5109E-02 +* +CFilter_m_d1_m1_e102 33 34 2.5234E-06 +RFilter_m_d1_m1_e102 33 34 3.6877E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 4.2140E-08 +RFilter_m_d1_m1_e201 37 38 1.5109E-02 +* +CFilter_m_d1_m1_e202 38 39 2.5234E-06 +RFilter_m_d1_m1_e202 38 39 3.6877E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.380492E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.380492E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 +RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 +RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 +RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 +RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 2.991746E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 2.991746E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8325E-07 +RFilter_m_d2_m1_e101 68 69 3.4623E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1104E-05 +RFilter_m_d2_m1_e102 69 70 8.4317E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8325E-07 +RFilter_m_d2_m1_e201 73 74 3.4623E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1104E-05 +RFilter_m_d2_m1_e202 74 75 8.4317E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 2.991746E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 2.991746E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib new file mode 100644 index 0000000..ac6f851 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901019_V14_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.380492E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.380492E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 4.2140E-08 +RFilter_m_d1_m1_e101 32 33 1.5109E-02 +* +CFilter_m_d1_m1_e102 33 34 2.5234E-06 +RFilter_m_d1_m1_e102 33 34 3.6877E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 4.2140E-08 +RFilter_m_d1_m1_e201 37 38 1.5109E-02 +* +CFilter_m_d1_m1_e202 38 39 2.5234E-06 +RFilter_m_d1_m1_e202 38 39 3.6877E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.380492E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.380492E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 +RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 +RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 +RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 +RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 2.991746E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 2.991746E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8325E-07 +RFilter_m_d2_m1_e101 68 69 3.4623E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1104E-05 +RFilter_m_d2_m1_e102 69 70 8.4317E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8325E-07 +RFilter_m_d2_m1_e201 73 74 3.4623E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1104E-05 +RFilter_m_d2_m1_e202 74 75 8.4317E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 2.991746E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 2.991746E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib new file mode 100644 index 0000000..b53191f --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901019_V14_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.380492E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.380492E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 4.2140E-08 +RFilter_m_d1_m1_e101 32 33 1.5109E-02 +* +CFilter_m_d1_m1_e102 33 34 2.5234E-06 +RFilter_m_d1_m1_e102 33 34 3.6877E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 4.2140E-08 +RFilter_m_d1_m1_e201 37 38 1.5109E-02 +* +CFilter_m_d1_m1_e202 38 39 2.5234E-06 +RFilter_m_d1_m1_e202 38 39 3.6877E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.604826E-07 G=0.0 C= 2.416269E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.604826E-07 G=0.0 C= 2.416269E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.380492E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.380492E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 +RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 +RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 +RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 +RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 2.991746E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 2.991746E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8325E-07 +RFilter_m_d2_m1_e101 68 69 3.4623E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1104E-05 +RFilter_m_d2_m1_e102 69 70 8.4317E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8325E-07 +RFilter_m_d2_m1_e201 73 74 3.4623E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1104E-05 +RFilter_m_d2_m1_e202 74 75 8.4317E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.024693E-06 G=0.0 C= 1.144838E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.024693E-06 G=0.0 C= 1.144838E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 2.991746E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 2.991746E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec new file mode 100644 index 0000000..f7b443b --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_20_ESCC_3901025_V10_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib new file mode 100644 index 0000000..e7ee03c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901025_V10_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.062356E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.062356E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2388E-08 +RFilter_m_d1_m1_e101 32 33 1.9686E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9306E-06 +RFilter_m_d1_m1_e102 33 34 4.8091E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2388E-08 +RFilter_m_d1_m1_e201 37 38 1.9686E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9306E-06 +RFilter_m_d1_m1_e202 38 39 4.8091E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.062356E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.062356E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.023380E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.023380E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8519E-07 +RFilter_m_d2_m1_e101 68 69 3.4260E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1221E-05 +RFilter_m_d2_m1_e102 69 70 8.3430E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8519E-07 +RFilter_m_d2_m1_e201 73 74 3.4260E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1221E-05 +RFilter_m_d2_m1_e202 74 75 8.3430E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.023380E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.023380E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib new file mode 100644 index 0000000..b30534d --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901025_V10_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.062356E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.062356E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2388E-08 +RFilter_m_d1_m1_e101 32 33 1.9686E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9306E-06 +RFilter_m_d1_m1_e102 33 34 4.8091E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2388E-08 +RFilter_m_d1_m1_e201 37 38 1.9686E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9306E-06 +RFilter_m_d1_m1_e202 38 39 4.8091E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.062356E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.062356E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.023380E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.023380E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8519E-07 +RFilter_m_d2_m1_e101 68 69 3.4260E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1221E-05 +RFilter_m_d2_m1_e102 69 70 8.3430E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8519E-07 +RFilter_m_d2_m1_e201 73 74 3.4260E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1221E-05 +RFilter_m_d2_m1_e202 74 75 8.3430E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.023380E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.023380E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib new file mode 100644 index 0000000..97716cb --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_20_ESCC_3901025_V10_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 1.750120E-02 +Rdc_c2_e1 3 9 1.750120E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 1.750120E-02 +Rdc_c2_e2 6 11 1.750120E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.062356E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.062356E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2388E-08 +RFilter_m_d1_m1_e101 32 33 1.9686E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9306E-06 +RFilter_m_d1_m1_e102 33 34 4.8091E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2388E-08 +RFilter_m_d1_m1_e201 37 38 1.9686E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9306E-06 +RFilter_m_d1_m1_e202 38 39 4.8091E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.543639E-07 G=0.0 C= 3.139852E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.543639E-07 G=0.0 C= 3.139852E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.062356E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.062356E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.023380E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.023380E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.8519E-07 +RFilter_m_d2_m1_e101 68 69 3.4260E-03 +* +CFilter_m_d2_m1_e102 69 70 1.1221E-05 +RFilter_m_d2_m1_e102 69 70 8.3430E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.8519E-07 +RFilter_m_d2_m1_e201 73 74 3.4260E-03 +* +CFilter_m_d2_m1_e202 74 75 1.1221E-05 +RFilter_m_d2_m1_e202 74 75 8.3430E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.020985E-06 G=0.0 C= 1.116951E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.020985E-06 G=0.0 C= 1.116951E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.023380E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.023380E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 +RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 +RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 +RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 +RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 +RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 +RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 +RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 +RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec new file mode 100644 index 0000000..190283b --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_22_ESCC_3901002_V33_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib new file mode 100644 index 0000000..c0f0b05 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901002_V33_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 2.674756E-02 +Rdc_c2_e1 3 9 2.674756E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 2.674756E-02 +Rdc_c2_e2 6 11 2.674756E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.318284E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.318284E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2234E-08 +RFilter_m_d1_m1_e101 32 33 1.9674E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9219E-06 +RFilter_m_d1_m1_e102 33 34 4.7501E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2234E-08 +RFilter_m_d1_m1_e201 37 38 1.9674E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9219E-06 +RFilter_m_d1_m1_e202 38 39 4.7501E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.318284E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.318284E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129312E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129312E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.5370E-07 +RFilter_m_d2_m1_e101 68 69 4.1067E-03 +* +CFilter_m_d2_m1_e102 69 70 9.3076E-06 +RFilter_m_d2_m1_e102 69 70 9.8851E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.5370E-07 +RFilter_m_d2_m1_e201 73 74 4.1067E-03 +* +CFilter_m_d2_m1_e202 74 75 9.3076E-06 +RFilter_m_d2_m1_e202 74 75 9.8851E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129312E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129312E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 +RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 +RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 +RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 +RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib new file mode 100644 index 0000000..0bd4f3d --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901002_V33_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 2.674756E-02 +Rdc_c2_e1 3 9 2.674756E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 2.674756E-02 +Rdc_c2_e2 6 11 2.674756E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.318284E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.318284E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2234E-08 +RFilter_m_d1_m1_e101 32 33 1.9674E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9219E-06 +RFilter_m_d1_m1_e102 33 34 4.7501E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2234E-08 +RFilter_m_d1_m1_e201 37 38 1.9674E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9219E-06 +RFilter_m_d1_m1_e202 38 39 4.7501E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.318284E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.318284E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129312E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129312E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.5370E-07 +RFilter_m_d2_m1_e101 68 69 4.1067E-03 +* +CFilter_m_d2_m1_e102 69 70 9.3076E-06 +RFilter_m_d2_m1_e102 69 70 9.8851E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.5370E-07 +RFilter_m_d2_m1_e201 73 74 4.1067E-03 +* +CFilter_m_d2_m1_e202 74 75 9.3076E-06 +RFilter_m_d2_m1_e202 74 75 9.8851E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129312E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129312E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 +RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 +RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 +RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 +RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib new file mode 100644 index 0000000..8b002a4 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901002_V33_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 2.674756E-02 +Rdc_c2_e1 3 9 2.674756E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 2.674756E-02 +Rdc_c2_e2 6 11 2.674756E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.318284E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.318284E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.2234E-08 +RFilter_m_d1_m1_e101 32 33 1.9674E-02 +* +CFilter_m_d1_m1_e102 33 34 1.9219E-06 +RFilter_m_d1_m1_e102 33 34 4.7501E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.2234E-08 +RFilter_m_d1_m1_e201 37 38 1.9674E-02 +* +CFilter_m_d1_m1_e202 38 39 1.9219E-06 +RFilter_m_d1_m1_e202 38 39 4.7501E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.397323E-07 G=0.0 C= 2.530290E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.397323E-07 G=0.0 C= 2.530290E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.318284E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.318284E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 +RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 +RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 +RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 +RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129312E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129312E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.5370E-07 +RFilter_m_d2_m1_e101 68 69 4.1067E-03 +* +CFilter_m_d2_m1_e102 69 70 9.3076E-06 +RFilter_m_d2_m1_e102 69 70 9.8851E-04 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.5370E-07 +RFilter_m_d2_m1_e201 73 74 4.1067E-03 +* +CFilter_m_d2_m1_e202 74 75 9.3076E-06 +RFilter_m_d2_m1_e202 74 75 9.8851E-04 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.065827E-06 G=0.0 C= 1.088401E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.065827E-06 G=0.0 C= 1.088401E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129312E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129312E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 +RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 +RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 +RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 +RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec new file mode 100644 index 0000000..8b85332 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_22_ESCC_3901019_V13_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib new file mode 100644 index 0000000..d77d32c --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901019_V13_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.391014E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.391014E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.1210E-08 +RFilter_m_d1_m1_e101 32 33 2.0272E-02 +* +CFilter_m_d1_m1_e102 33 34 1.8599E-06 +RFilter_m_d1_m1_e102 33 34 4.8696E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.1210E-08 +RFilter_m_d1_m1_e201 37 38 2.0272E-02 +* +CFilter_m_d1_m1_e202 38 39 1.8599E-06 +RFilter_m_d1_m1_e202 38 39 4.8696E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.391014E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.391014E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.095657E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.095657E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.3952E-07 +RFilter_m_d2_m1_e101 68 69 4.5132E-03 +* +CFilter_m_d2_m1_e102 69 70 8.4459E-06 +RFilter_m_d2_m1_e102 69 70 1.0808E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.3952E-07 +RFilter_m_d2_m1_e201 73 74 4.5132E-03 +* +CFilter_m_d2_m1_e202 74 75 8.4459E-06 +RFilter_m_d2_m1_e202 74 75 1.0808E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.095657E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.095657E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib new file mode 100644 index 0000000..f171824 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901019_V13_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.391014E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.391014E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.1210E-08 +RFilter_m_d1_m1_e101 32 33 2.0272E-02 +* +CFilter_m_d1_m1_e102 33 34 1.8599E-06 +RFilter_m_d1_m1_e102 33 34 4.8696E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.1210E-08 +RFilter_m_d1_m1_e201 37 38 2.0272E-02 +* +CFilter_m_d1_m1_e202 38 39 1.8599E-06 +RFilter_m_d1_m1_e202 38 39 4.8696E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.391014E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.391014E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.095657E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.095657E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.3952E-07 +RFilter_m_d2_m1_e101 68 69 4.5132E-03 +* +CFilter_m_d2_m1_e102 69 70 8.4459E-06 +RFilter_m_d2_m1_e102 69 70 1.0808E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.3952E-07 +RFilter_m_d2_m1_e201 73 74 4.5132E-03 +* +CFilter_m_d2_m1_e202 74 75 8.4459E-06 +RFilter_m_d2_m1_e202 74 75 1.0808E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.095657E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.095657E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib new file mode 100644 index 0000000..160495f --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901019_V13_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.391014E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.391014E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 3.1210E-08 +RFilter_m_d1_m1_e101 32 33 2.0272E-02 +* +CFilter_m_d1_m1_e102 33 34 1.8599E-06 +RFilter_m_d1_m1_e102 33 34 4.8696E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 3.1210E-08 +RFilter_m_d1_m1_e201 37 38 2.0272E-02 +* +CFilter_m_d1_m1_e202 38 39 1.8599E-06 +RFilter_m_d1_m1_e202 38 39 4.8696E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.639922E-07 G=0.0 C= 2.397993E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.639922E-07 G=0.0 C= 2.397993E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.391014E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.391014E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 +RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 +RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 +RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 +RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.095657E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.095657E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.3952E-07 +RFilter_m_d2_m1_e101 68 69 4.5132E-03 +* +CFilter_m_d2_m1_e102 69 70 8.4459E-06 +RFilter_m_d2_m1_e102 69 70 1.0808E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.3952E-07 +RFilter_m_d2_m1_e201 73 74 4.5132E-03 +* +CFilter_m_d2_m1_e202 74 75 8.4459E-06 +RFilter_m_d2_m1_e202 74 75 1.0808E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.060768E-06 G=0.0 C= 1.106916E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.060768E-06 G=0.0 C= 1.106916E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.095657E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.095657E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec new file mode 100644 index 0000000..8f1e4f1 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_22_ESCC_3901025_V09_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib new file mode 100644 index 0000000..8888b18 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901025_V09_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.197535E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.197535E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.6845E-08 +RFilter_m_d1_m1_e101 32 33 2.3592E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5946E-06 +RFilter_m_d1_m1_e102 33 34 5.6709E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.6845E-08 +RFilter_m_d1_m1_e201 37 38 2.3592E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5946E-06 +RFilter_m_d1_m1_e202 38 39 5.6709E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.197535E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.197535E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129945E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129945E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.4107E-07 +RFilter_m_d2_m1_e101 68 69 4.4636E-03 +* +CFilter_m_d2_m1_e102 69 70 8.5398E-06 +RFilter_m_d2_m1_e102 69 70 1.0688E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.4107E-07 +RFilter_m_d2_m1_e201 73 74 4.4636E-03 +* +CFilter_m_d2_m1_e202 74 75 8.5398E-06 +RFilter_m_d2_m1_e202 74 75 1.0688E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129945E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129945E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib new file mode 100644 index 0000000..7fb5421 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901025_V09_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.197535E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.197535E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.6845E-08 +RFilter_m_d1_m1_e101 32 33 2.3592E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5946E-06 +RFilter_m_d1_m1_e102 33 34 5.6709E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.6845E-08 +RFilter_m_d1_m1_e201 37 38 2.3592E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5946E-06 +RFilter_m_d1_m1_e202 38 39 5.6709E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.197535E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.197535E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129945E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129945E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.4107E-07 +RFilter_m_d2_m1_e101 68 69 4.4636E-03 +* +CFilter_m_d2_m1_e102 69 70 8.5398E-06 +RFilter_m_d2_m1_e102 69 70 1.0688E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.4107E-07 +RFilter_m_d2_m1_e201 73 74 4.4636E-03 +* +CFilter_m_d2_m1_e202 74 75 8.5398E-06 +RFilter_m_d2_m1_e202 74 75 1.0688E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129945E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129945E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib new file mode 100644 index 0000000..8846105 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_22_ESCC_3901025_V09_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 3.150640E-02 +Rdc_c2_e1 3 9 3.150640E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 3.150640E-02 +Rdc_c2_e2 6 11 3.150640E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.197535E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.197535E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.6845E-08 +RFilter_m_d1_m1_e101 32 33 2.3592E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5946E-06 +RFilter_m_d1_m1_e102 33 34 5.6709E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.6845E-08 +RFilter_m_d1_m1_e201 37 38 2.3592E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5946E-06 +RFilter_m_d1_m1_e202 38 39 5.6709E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.994546E-07 G=0.0 C= 2.785423E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 3.994546E-07 G=0.0 C= 2.785423E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.197535E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.197535E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.129945E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.129945E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.4107E-07 +RFilter_m_d2_m1_e101 68 69 4.4636E-03 +* +CFilter_m_d2_m1_e102 69 70 8.5398E-06 +RFilter_m_d2_m1_e102 69 70 1.0688E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.4107E-07 +RFilter_m_d2_m1_e201 73 74 4.4636E-03 +* +CFilter_m_d2_m1_e202 74 75 8.5398E-06 +RFilter_m_d2_m1_e202 74 75 1.0688E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.059687E-06 G=0.0 C= 1.081693E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.059687E-06 G=0.0 C= 1.081693E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.129945E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.129945E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 +RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 +RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 +RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 +RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec new file mode 100644 index 0000000..ceea369 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_24_ESCC_3901002_V32_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib new file mode 100644 index 0000000..d0189bb --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901002_V32_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 5.501884E-02 +Rdc_c2_e1 3 9 5.501884E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 5.501884E-02 +Rdc_c2_e2 6 11 5.501884E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.475060E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.475060E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.4595E-08 +RFilter_m_d1_m1_e101 32 33 2.5497E-02 +* +CFilter_m_d1_m1_e102 33 34 1.4603E-06 +RFilter_m_d1_m1_e102 33 34 5.9990E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.4595E-08 +RFilter_m_d1_m1_e201 37 38 2.5497E-02 +* +CFilter_m_d1_m1_e202 38 39 1.4603E-06 +RFilter_m_d1_m1_e202 38 39 5.9990E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.475060E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.475060E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.294943E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.294943E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.1047E-07 +RFilter_m_d2_m1_e101 68 69 5.6424E-03 +* +CFilter_m_d2_m1_e102 69 70 6.6869E-06 +RFilter_m_d2_m1_e102 69 70 1.3222E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.1047E-07 +RFilter_m_d2_m1_e201 73 74 5.6424E-03 +* +CFilter_m_d2_m1_e202 74 75 6.6869E-06 +RFilter_m_d2_m1_e202 74 75 1.3222E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.294943E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.294943E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib new file mode 100644 index 0000000..da63688 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901002_V32_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 5.501884E-02 +Rdc_c2_e1 3 9 5.501884E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 5.501884E-02 +Rdc_c2_e2 6 11 5.501884E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.475060E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.475060E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.4595E-08 +RFilter_m_d1_m1_e101 32 33 2.5497E-02 +* +CFilter_m_d1_m1_e102 33 34 1.4603E-06 +RFilter_m_d1_m1_e102 33 34 5.9990E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.4595E-08 +RFilter_m_d1_m1_e201 37 38 2.5497E-02 +* +CFilter_m_d1_m1_e202 38 39 1.4603E-06 +RFilter_m_d1_m1_e202 38 39 5.9990E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.475060E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.475060E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.294943E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.294943E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.1047E-07 +RFilter_m_d2_m1_e101 68 69 5.6424E-03 +* +CFilter_m_d2_m1_e102 69 70 6.6869E-06 +RFilter_m_d2_m1_e102 69 70 1.3222E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.1047E-07 +RFilter_m_d2_m1_e201 73 74 5.6424E-03 +* +CFilter_m_d2_m1_e202 74 75 6.6869E-06 +RFilter_m_d2_m1_e202 74 75 1.3222E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.294943E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.294943E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib new file mode 100644 index 0000000..fe254ff --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901002_V32_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 5.501884E-02 +Rdc_c2_e1 3 9 5.501884E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 5.501884E-02 +Rdc_c2_e2 6 11 5.501884E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.475060E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.475060E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.4595E-08 +RFilter_m_d1_m1_e101 32 33 2.5497E-02 +* +CFilter_m_d1_m1_e102 33 34 1.4603E-06 +RFilter_m_d1_m1_e102 33 34 5.9990E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.4595E-08 +RFilter_m_d1_m1_e201 37 38 2.5497E-02 +* +CFilter_m_d1_m1_e202 38 39 1.4603E-06 +RFilter_m_d1_m1_e202 38 39 5.9990E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.920270E-07 G=0.0 C= 2.261360E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.920270E-07 G=0.0 C= 2.261360E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.475060E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.475060E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.294943E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.294943E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.1047E-07 +RFilter_m_d2_m1_e101 68 69 5.6424E-03 +* +CFilter_m_d2_m1_e102 69 70 6.6869E-06 +RFilter_m_d2_m1_e102 69 70 1.3222E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.1047E-07 +RFilter_m_d2_m1_e201 73 74 5.6424E-03 +* +CFilter_m_d2_m1_e202 74 75 6.6869E-06 +RFilter_m_d2_m1_e202 74 75 1.3222E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.126080E-06 G=0.0 C= 1.037227E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.126080E-06 G=0.0 C= 1.037227E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.294943E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.294943E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec new file mode 100644 index 0000000..dbe20a2 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_24_ESCC_3901019_V12_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib new file mode 100644 index 0000000..e400529 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901019_V12_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.629094E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.629094E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.5938E-08 +RFilter_m_d1_m1_e101 32 33 2.4120E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5430E-06 +RFilter_m_d1_m1_e102 33 34 5.6502E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.5938E-08 +RFilter_m_d1_m1_e201 37 38 2.4120E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5430E-06 +RFilter_m_d1_m1_e202 38 39 5.6502E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.629094E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.629094E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.209202E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.209202E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0269E-07 +RFilter_m_d2_m1_e101 68 69 6.0587E-03 +* +CFilter_m_d2_m1_e102 69 70 6.2168E-06 +RFilter_m_d2_m1_e102 69 70 1.4141E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0269E-07 +RFilter_m_d2_m1_e201 73 74 6.0587E-03 +* +CFilter_m_d2_m1_e202 74 75 6.2168E-06 +RFilter_m_d2_m1_e202 74 75 1.4141E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.209202E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.209202E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 +RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 +RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 +RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 +RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib new file mode 100644 index 0000000..08c6594 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901019_V12_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.629094E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.629094E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.5938E-08 +RFilter_m_d1_m1_e101 32 33 2.4120E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5430E-06 +RFilter_m_d1_m1_e102 33 34 5.6502E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.5938E-08 +RFilter_m_d1_m1_e201 37 38 2.4120E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5430E-06 +RFilter_m_d1_m1_e202 38 39 5.6502E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.629094E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.629094E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.209202E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.209202E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0269E-07 +RFilter_m_d2_m1_e101 68 69 6.0587E-03 +* +CFilter_m_d2_m1_e102 69 70 6.2168E-06 +RFilter_m_d2_m1_e102 69 70 1.4141E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0269E-07 +RFilter_m_d2_m1_e201 73 74 6.0587E-03 +* +CFilter_m_d2_m1_e202 74 75 6.2168E-06 +RFilter_m_d2_m1_e202 74 75 1.4141E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.209202E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.209202E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 +RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 +RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 +RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 +RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib new file mode 100644 index 0000000..e705779 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901019_V12_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.629094E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.629094E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 2.5938E-08 +RFilter_m_d1_m1_e101 32 33 2.4120E-02 +* +CFilter_m_d1_m1_e102 33 34 1.5430E-06 +RFilter_m_d1_m1_e102 33 34 5.6502E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 2.5938E-08 +RFilter_m_d1_m1_e201 37 38 2.4120E-02 +* +CFilter_m_d1_m1_e202 38 39 1.5430E-06 +RFilter_m_d1_m1_e202 38 39 5.6502E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.434073E-07 G=0.0 C= 2.047544E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 5.434073E-07 G=0.0 C= 2.047544E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.629094E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.629094E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 +RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 +RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 +RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 +RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 +RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 +RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 +RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 +RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.209202E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.209202E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0269E-07 +RFilter_m_d2_m1_e101 68 69 6.0587E-03 +* +CFilter_m_d2_m1_e102 69 70 6.2168E-06 +RFilter_m_d2_m1_e102 69 70 1.4141E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0269E-07 +RFilter_m_d2_m1_e201 73 74 6.0587E-03 +* +CFilter_m_d2_m1_e202 74 75 6.2168E-06 +RFilter_m_d2_m1_e202 74 75 1.4141E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.106616E-06 G=0.0 C= 1.074491E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.106616E-06 G=0.0 C= 1.074491E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.209202E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.209202E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 +RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 +RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 +RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 +RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec new file mode 100644 index 0000000..b466386 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec @@ -0,0 +1,40 @@ +MOD_cable_lib_dir +LIBRARY_OF_CABLE_MODELS +MOD_bundle_lib_dir +LIBRARY_OF_BUNDLE_MODELS +MOD_spice_bundle_lib_dir +LIBRARY_OF_SPICE_MODELS +#spice_symbol_dir +SYMBOL_DIR +# Specification for spice model of single wire over ground, no loss +TP_AWG_24_ESCC_3901025_V08_over_ground +# cable bundle length (m) +1.0 +#Incident field specification +0.0 amplitude (V/m) +90.0 0.0 ktheta kphi (degrees) +-1.0 0.0 Etheta Ephi +# End 1 termination model + 0.50 End 1 voltage source list +-0.50 +0.0 +50.0 End 1 impedance list +50.0 +0.0 +# End 2 termination model +0.0 End 2 voltage source list +0.0 +0.0 +50.0 End 2 impedance list +50.0 +0.0 +# Type of analysis +AC +log # frequency scale (log or lin) +1e5 1e9 1000 # fmin fmax number_of_frequencies +# Output conductor number and end number +1 2 2 +lin # output type (lin or dB) +2 # order for filter fit model +lin +5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib new file mode 100644 index 0000000..76a9c52 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib @@ -0,0 +1,412 @@ +* LTspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901025_V08_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.250852E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.250852E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 1.9877E-08 +RFilter_m_d1_m1_e101 32 33 3.1545E-02 +* +CFilter_m_d1_m1_e102 33 34 1.1742E-06 +RFilter_m_d1_m1_e102 33 34 7.4011E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 1.9877E-08 +RFilter_m_d1_m1_e201 37 38 3.1545E-02 +* +CFilter_m_d1_m1_e202 38 39 1.1742E-06 +RFilter_m_d1_m1_e202 38 39 7.4011E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.250852E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.250852E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 +RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 +RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 +RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 +RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 +RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 +RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 +RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 +RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.266431E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.266431E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0453E-07 +RFilter_m_d2_m1_e101 68 69 5.9523E-03 +* +CFilter_m_d2_m1_e102 69 70 6.3283E-06 +RFilter_m_d2_m1_e102 69 70 1.3892E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0453E-07 +RFilter_m_d2_m1_e201 73 74 5.9523E-03 +* +CFilter_m_d2_m1_e202 74 75 6.3283E-06 +RFilter_m_d2_m1_e202 74 75 1.3892E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.266431E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.266431E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib new file mode 100644 index 0000000..a7c98ec --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib @@ -0,0 +1,412 @@ +* Ngspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901025_V08_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.250852E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.250852E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 1.9877E-08 +RFilter_m_d1_m1_e101 32 33 3.1545E-02 +* +CFilter_m_d1_m1_e102 33 34 1.1742E-06 +RFilter_m_d1_m1_e102 33 34 7.4011E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 1.9877E-08 +RFilter_m_d1_m1_e201 37 38 3.1545E-02 +* +CFilter_m_d1_m1_e202 38 39 1.1742E-06 +RFilter_m_d1_m1_e202 38 39 7.4011E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 +.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 +.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.250852E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.250852E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 +RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 +RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 +RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 +RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 +RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 +RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 +RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 +RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.266431E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.266431E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0453E-07 +RFilter_m_d2_m1_e101 68 69 5.9523E-03 +* +CFilter_m_d2_m1_e102 69 70 6.3283E-06 +RFilter_m_d2_m1_e102 69 70 1.3892E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0453E-07 +RFilter_m_d2_m1_e201 73 74 5.9523E-03 +* +CFilter_m_d2_m1_e202 74 75 6.3283E-06 +RFilter_m_d2_m1_e202 74 75 1.3892E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 +* +* +* Delay line for positive z propagation +* +O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 +.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) +* +* Delay line for negative z propagation +* +O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 +.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.266431E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.266431E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 +* +* +.ends +* diff --git a/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib new file mode 100644 index 0000000..a9135e4 --- /dev/null +++ b/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib @@ -0,0 +1,412 @@ +* Pspice multi-conductor transmission line model +* +* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) +* Spice cable model builder v3.0.3 +* www.sacamos.org +* +* +* Transmission line subcircuit +* +* +* End 1 nodes: +* +* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +* End 2 nodes: +* +* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 +* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 +* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane +* +.subckt TP_AWG_24_ESCC_3901025_V08_over_ground ++ 2 3 4 ++ 5 6 7 +* +* D.C. RESISTANCE END 1 +* +Rdc_c1_e1 2 8 6.000378E-02 +Rdc_c2_e1 3 9 6.000378E-02 +Rdc_c3_e1 4 1 5.000000E-09 +* +* D.C. RESISTANCE END 2 +* +Rdc_c1_e2 5 10 6.000378E-02 +Rdc_c2_e2 6 11 6.000378E-02 +Rdc_c3_e2 7 1 5.000000E-09 +* +* DOMAIN TRANSFORMATION END 1 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e1 8 14 +Vmeas_domain_decomp_c2_e1 9 16 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 +E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 +E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 +F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 +F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 +F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 +* +* DOMAIN TRANSFORMATION END 2 +* +* +* Domain decomposition Voltage sources used for current sensing +* +Vmeas_domain_decomp_c1_e2 10 20 +Vmeas_domain_decomp_c2_e2 11 22 +* +* Domain decomposition Voltage controlled voltage sources (domain to conductor) +* +E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 +E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 +E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 +E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 +* +* Domain decomposition Current controlled current sources (conductor to domain) +* +F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 +F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 +F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 +F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 +* +* DOMAIN 1 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e1 12 25 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d1_c1_e2 18 27 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d1_m1_e1 24 28 1.250852E+02 +* +* Modal impedance: end2 +* +RZCm_d1_m1_e2 26 29 1.250852E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 +* +CFilter_m_d1_m1_e101 32 33 1.9877E-08 +RFilter_m_d1_m1_e101 32 33 3.1545E-02 +* +CFilter_m_d1_m1_e102 33 34 1.1742E-06 +RFilter_m_d1_m1_e102 33 34 7.4011E-03 +* +RFilter_m_d1_m1_e103 34 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 +* +CFilter_m_d1_m1_e201 37 38 1.9877E-08 +RFilter_m_d1_m1_e201 37 38 3.1545E-02 +* +CFilter_m_d1_m1_e202 38 39 1.1742E-06 +RFilter_m_d1_m1_e202 38 39 7.4011E-03 +* +RFilter_m_d1_m1_e203 39 1 1.0000E+00 +* +* +ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.172394E-07 G=0.0 C= 2.666695E-11 +* +* Delay line for negative z propagation +* +T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 ++ R=0.0 L= 4.172394E-07 G=0.0 C= 2.666695E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d1_m1_e1 35 1 1.250852E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d1_m1_e2 30 1 1.250852E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 +RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 +* +CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 +RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 +* +RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 +* +CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 +RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 +* +CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 +RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 +* +RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 +RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 +* +CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 +RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 +* +RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 +* +CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 +RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 +* +CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 +RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 +* +RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 +* +* +* DOMAIN 2 +* +* +* Modal Decomposition +* +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e1 13 61 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 +* +* Modal decomposition Voltage sources used for current sensing +* +Vmeas_mode_decomp_d2_c1_e2 19 63 +* +* Modal decomposition Voltage controlled voltage sources (mode to conductor) +* +E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 +* +* Modal decomposition Current controlled current sources (conductor to mode) +* +F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 +* +* Modal impedance: end1 +* +RZCm_d2_m1_e1 60 64 3.266431E+02 +* +* Modal impedance: end2 +* +RZCm_d2_m1_e2 62 65 3.266431E+02 +* +* Modal frequency dependent voltage controlled voltage source : end1 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 +* +CFilter_m_d2_m1_e101 68 69 1.0453E-07 +RFilter_m_d2_m1_e101 68 69 5.9523E-03 +* +CFilter_m_d2_m1_e102 69 70 6.3283E-06 +RFilter_m_d2_m1_e102 69 70 1.3892E-03 +* +RFilter_m_d2_m1_e103 70 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 +* +* +* Modal frequency dependent voltage controlled voltage source : end2 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 +* +CFilter_m_d2_m1_e201 73 74 1.0453E-07 +RFilter_m_d2_m1_e201 73 74 5.9523E-03 +* +CFilter_m_d2_m1_e202 74 75 6.3283E-06 +RFilter_m_d2_m1_e202 74 75 1.3892E-03 +* +RFilter_m_d2_m1_e203 75 1 1.0000E+00 +* +* +ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 +* +* +* Delay line for positive z propagation +* +T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.106473E-06 G=0.0 C= 1.037036E-11 +* +* Delay line for negative z propagation +* +T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 ++ R=0.0 L= 1.106473E-06 G=0.0 C= 1.037036E-11 +* +* Modal impedances on modal positive z propagation delay lines +* +RZC_pz_d2_m1_e1 71 1 3.266431E+02 +* +* Modal impedances on modal negative z propagation delay lines +* +RZC_mz_d2_m1_e2 66 1 3.266431E+02 +* +* Delay line frequency dependent controlled sources for positive z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 +RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 +* +CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 +RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 +* +RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 +* +CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 +RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 +* +CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 +RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 +* +RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 +* +* +ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 +* +* +* Delay line frequency dependent controlled sources for negative z propagation +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 +RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 +* +CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 +RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 +* +RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 +* +*****Equivalent circuit model for s-domain transfer function ***** +* generated by network_syntheis.F90 +* +GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 +* +CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 +RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 +* +CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 +RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 +* +RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 +* +* +ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 +* +* +.ends +* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec deleted file mode 100644 index 999d407..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -0.0 0.0056 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec deleted file mode 100644 index c835c12..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_26_ESCC_3902003_V2 -0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec deleted file mode 100644 index ad8c232..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_28_ESCC_3902003_V1 -0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec deleted file mode 100644 index c619e05..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec +++ /dev/null @@ -1,9 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -STP_AWG_26_ESCC_3901025_V12 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec deleted file mode 100644 index ef2c584..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec +++ /dev/null @@ -1,9 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -STP_RS422_AWG_26_ESCC_3902002_V24 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec deleted file mode 100644 index 616d087..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/SpaceWire_connector.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows -SpaceWire_connector -0.0 0.0 0.0 -no_ground_plane -use_laplace -verbose - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec deleted file mode 100644 index 885e265..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901002_V34 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec deleted file mode 100644 index 1574364..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901019_V14 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec deleted file mode 100644 index 5f4a137..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901025_V10 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec deleted file mode 100644 index 42c3f45..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901002_V33 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec deleted file mode 100644 index 41464ba..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901019_V13 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec deleted file mode 100644 index 3a39de9..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901025_V09 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec deleted file mode 100644 index 8512e16..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901002_V32 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec deleted file mode 100644 index 5065030..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901019_V12 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec deleted file mode 100644 index 2aea618..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901025_V08 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/readme.md b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/readme.md deleted file mode 100644 index 5c14bd2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/BUNDLE/readme.md +++ /dev/null @@ -1 +0,0 @@ -Directory for cable bundle models and directories with the associated Spice cable bundle models diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable deleted file mode 100644 index bbefc80..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable +++ /dev/null @@ -1,631 +0,0 @@ -v3.0.3 -spacewire - 6 # cable type number - 13 # Total Number of conductors - 1 # Number of external conductors - 10 # Total number of domains (including external domain) - 12 # Number of internal conductors - 9 # Number of internal domains - 13 # Number of cable parameters - 1.7390000000000000E-004 - 3.7750000000000001E-004 - 7.6499999999999995E-004 - 7.6999999999999996E-004 - 0.0000000000000000 - 8.0999999999999996E-004 - 1.1529999999999999E-003 - 2.0500000000000002E-003 - 0.0000000000000000 - 2.2499999999999998E-003 - 41120000.000000000 - 36000000.000000000 - 36000000.000000000 - 3 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.5000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 2 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.0000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 3 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.3000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.7390000000000000E-004 # conductor radius - 41120000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 4 # Conductor impedance model type - 7.6999999999999996E-004 # conductor radius - 36000000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.5694333038215491E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.7000000000000004E-002 1.0000000000000000E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.6999999999999996E-004 # conductor radius - 36000000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.5694333038215491E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.7000000000000004E-002 1.0000000000000000E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.6999999999999996E-004 # conductor radius - 36000000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.5694333038215491E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.7000000000000004E-002 1.0000000000000000E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.6999999999999996E-004 # conductor radius - 36000000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.5694333038215491E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.7000000000000004E-002 1.0000000000000000E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 2.0500000000000002E-003 # conductor radius - 36000000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 1.5404078890040199E-004 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 1.4000000000000000E-002 -4.3999999999999998E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - External to domain conductor current transformation matrix, MI - 14 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 14 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.85324765E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.98593060E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8532476462811096E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9859306040318197E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 2 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.33607009E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.10221287E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3360700933644680E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1022128652960076E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 3 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.85324765E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.98593060E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8532476462811096E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9859306040318197E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 4 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.33607009E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.10221287E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3360700933644680E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1022128652960076E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 5 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.85324765E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.98593060E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8532476462811096E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9859306040318197E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 6 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.33607009E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.10221287E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3360700933644680E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1022128652960076E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 7 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.85324765E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.98593060E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8532476462811096E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9859306040318197E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 8 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.33607009E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.10221287E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3360700933644680E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1022128652960076E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 9 - 5 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 4 Dimension of L - 5.98227033E-08 1.92921117E-08 1.09685210E-08 1.92921117E-08 - 1.92921117E-08 5.98227033E-08 1.92921117E-08 1.09685210E-08 - 1.09685210E-08 1.92921117E-08 5.98227033E-08 1.92921117E-08 - 1.92921117E-08 1.09685210E-08 1.92921117E-08 5.98227033E-08 - High frequency Per-Unit-length Capacitance Matrix, C - 4 Dimension of C - 2.25673589E-10 -6.09351987E-11 -2.07560314E-12 -6.09351987E-11 - -6.09351987E-11 2.25673589E-10 -6.09351987E-11 -2.07560314E-12 - -2.07560314E-12 -6.09351987E-11 2.25673589E-10 -6.09351987E-11 - -6.09351987E-11 -2.07560314E-12 -6.09351987E-11 2.25673589E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 5.9822703276690062E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777232E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0968521004166003E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777258E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777232E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 5.9822703276690076E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777265E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0968521004166014E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0968521004166003E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777265E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 5.9822703276690076E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777271E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777258E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0968521004166014E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.9292111658777271E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 5.9822703276690089E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2567358930951385E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672112997E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0756031433129014E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113088E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672112997E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2567358930951385E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113127E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0756031433129402E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0756031433129014E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113127E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2567358930951390E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113140E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113088E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0756031433129402E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -6.0935198672113140E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2567358930951388E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 9 - 3 - 10 - 4 - 11 - 5 - 12 - 13 - 13 - 13 - 13 - 0 - # number of conductors in each domain - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 5 - 2 - # External conductor information and dielectric model - 1 conductor type - 2.0500000000000002E-003 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 2.2499999999999998E-003 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.3000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 - Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec deleted file mode 100644 index 549ddcd..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 1.739E-04 # parameter 1: inner conductor radius - 3.775E-04 # parameter 2: inner dielectric radius - 7.650E-04 # parameter 3: inner conductor separation - 7.700E-04 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 8.100E-04 # parameter 6: inner shield jacket radius - 1.153E-03 # parameter 7: shielded twisted pair radius - 2.050E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 2.250E-03 # parameter 10:outer dielectric radius - 4.112E+07 # parameter 11: inner wire conductor conductivity - 3.6E+07 # parameter 12: inner shield conductivity - 3.6E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.000E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.300E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 6.700E-02 1.000E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.400E-02 -4.400E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable deleted file mode 100644 index fa6009f..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable +++ /dev/null @@ -1,631 +0,0 @@ -v3.0.3 -spacewire - 6 # cable type number - 13 # Total Number of conductors - 1 # Number of external conductors - 10 # Total number of domains (including external domain) - 12 # Number of internal conductors - 9 # Number of internal domains - 13 # Number of cable parameters - 2.1190000000000000E-004 - 3.7250000000000000E-004 - 7.5500000000000003E-004 - 1.0000000000000000E-003 - 0.0000000000000000 - 1.1999999999999999E-003 - 1.7040000000000000E-003 - 3.2499999999999999E-003 - 0.0000000000000000 - 3.5000000000000001E-003 - 44610000.000000000 - 44610000.000000000 - 44610000.000000000 - 3 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.5000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 2 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 3 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1190000000000000E-004 # conductor radius - 44610000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 4 # Conductor impedance model type - 1.0000000000000000E-003 # conductor radius - 44610000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.7016989022419418E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 4.1000000000000002E-002 2.0000000000000001E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 1.0000000000000000E-003 # conductor radius - 44610000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.7016989022419418E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 4.1000000000000002E-002 2.0000000000000001E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 1.0000000000000000E-003 # conductor radius - 44610000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.7016989022419418E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 4.1000000000000002E-002 2.0000000000000001E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 1.0000000000000000E-003 # conductor radius - 44610000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.7016989022419418E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 4.1000000000000002E-002 2.0000000000000001E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 3.2499999999999999E-003 # conductor radius - 44610000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 9.1479398715876826E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 1.2000000000000000E-002 -4.7000000000000003E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - External to domain conductor current transformation matrix, MI - 14 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 14 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.80745572E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.73527009E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8074557218255402E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.7352700928051482E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 2 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.70905910E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 7.51425710E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7090590994162511E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.5142571043507790E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 3 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.80745572E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.73527009E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8074557218255402E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.7352700928051482E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 4 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.70905910E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 7.51425710E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7090590994162511E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.5142571043507790E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 5 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.80745572E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.73527009E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8074557218255402E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.7352700928051482E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 6 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.70905910E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 7.51425710E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7090590994162511E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.5142571043507790E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 7 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.80745572E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.73527009E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8074557218255402E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.7352700928051482E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 8 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.70905910E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 7.51425710E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7090590994162511E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.5142571043507790E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 9 - 5 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 4 Dimension of L - 1.25571739E-07 3.94946028E-08 2.28925342E-08 3.94946028E-08 - 3.94946028E-08 1.25571739E-07 3.94946028E-08 2.28925342E-08 - 2.28925342E-08 3.94946028E-08 1.25571739E-07 3.94946028E-08 - 3.94946028E-08 2.28925342E-08 3.94946028E-08 1.25571739E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 4 Dimension of C - 1.53215907E-10 -4.63930978E-11 -2.00069260E-12 -4.63930978E-11 - -4.63930978E-11 1.53215907E-10 -4.63930978E-11 -2.00069260E-12 - -2.00069260E-12 -4.63930978E-11 1.53215907E-10 -4.63930978E-11 - -4.63930978E-11 -2.00069260E-12 -4.63930978E-11 1.53215907E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2557173851405208E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963604E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2892534211388188E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963644E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963604E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2557173851405187E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963670E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2892534211387924E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2892534211388188E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963670E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2557173851405210E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963591E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963644E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2892534211387924E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9494602834963591E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2557173851405213E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.5321590668823750E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321154E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0006925965197526E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833320973E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321154E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.5321590668823784E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321400E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0006925965201403E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0006925965197526E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321400E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.5321590668823796E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321257E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833320973E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0006925965201403E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -4.6393097833321257E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.5321590668823789E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 9 - 3 - 10 - 4 - 11 - 5 - 12 - 13 - 13 - 13 - 13 - 0 - # number of conductors in each domain - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 5 - 2 - # External conductor information and dielectric model - 1 conductor type - 3.2499999999999999E-003 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 3.5000000000000001E-003 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 - Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec deleted file mode 100644 index 7e0b093..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 2.119E-04 # parameter 1: inner conductor radius - 3.725E-04 # parameter 2: inner dielectric radius - 7.550E-04 # parameter 3: inner conductor separation - 1.000E-03 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 1.200E-03 # parameter 6: inner shield jacket radius - 1.704E-03 # parameter 7: shielded twisted pair radius - 3.250E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 3.500E-03 # parameter 10:outer dielectric radius - 4.461E+07 # parameter 11: inner wire conductor conductivity - 4.461E+07 # parameter 12: inner shield conductivity - 4.461E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 4.100E-02 2.000E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.2e-2 -4.7E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable deleted file mode 100644 index 3e61433..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable +++ /dev/null @@ -1,631 +0,0 @@ -v3.0.3 -spacewire - 6 # cable type number - 13 # Total Number of conductors - 1 # Number of external conductors - 10 # Total number of domains (including external domain) - 12 # Number of internal conductors - 9 # Number of internal domains - 13 # Number of cable parameters - 1.6830000000000000E-004 - 3.6249999999999998E-004 - 7.3499999999999998E-004 - 7.5000000000000002E-004 - 0.0000000000000000 - 9.5000000000000000E-004 - 1.3510000000000000E-003 - 2.3999999999999998E-003 - 0.0000000000000000 - 2.6500000000000000E-003 - 43890000.000000000 - 43890000.000000000 - 43890000.000000000 - 3 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.5000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 2 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 3 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 1.6830000000000000E-004 # conductor radius - 43890000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 4 # Conductor impedance model type - 7.5000000000000002E-004 # conductor radius - 43890000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 7.7983297977051781E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.2000000000000000E-002 -4.3999999999999998E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.5000000000000002E-004 # conductor radius - 43890000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 7.7983297977051781E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.2000000000000000E-002 -4.3999999999999998E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.5000000000000002E-004 # conductor radius - 43890000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 7.7983297977051781E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.2000000000000000E-002 -4.3999999999999998E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 7.5000000000000002E-004 # conductor radius - 43890000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 7.7983297977051781E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 6.2000000000000000E-002 -4.3999999999999998E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - 4 # Conductor impedance model type - 2.3999999999999998E-003 # conductor radius - 43890000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 8.8878023429728154E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 1.7000000000000001E-002 -4.7000000000000003E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - External to domain conductor current transformation matrix, MI - 14 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 14 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 5.00000000E-01 5.00000000E-01 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.88193756E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.92817471E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8819375597837255E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9281747143851089E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 2 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.36069653E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.07039039E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3606965253540117E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0703903937677543E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 3 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.88193756E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.92817471E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8819375597837255E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9281747143851089E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 4 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.36069653E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.07039039E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3606965253540117E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0703903937677543E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 5 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.88193756E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.92817471E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8819375597837255E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9281747143851089E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 6 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.36069653E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.07039039E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3606965253540117E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0703903937677543E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 7 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.88193756E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.92817471E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.8819375597837255E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9281747143851089E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 8 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.36069653E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.07039039E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3606965253540117E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.0703903937677543E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 9 - 5 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 4 Dimension of L - 1.16215602E-07 2.76181295E-08 1.36256320E-08 2.76181295E-08 - 2.76181295E-08 1.16215602E-07 2.76181295E-08 1.36256320E-08 - 1.36256320E-08 2.76181295E-08 1.16215602E-07 2.76181295E-08 - 2.76181295E-08 1.36256320E-08 2.76181295E-08 1.16215602E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 4 Dimension of C - 1.61342522E-10 -3.85129803E-11 -2.04082114E-12 -3.85129803E-11 - -3.85129803E-11 1.61342522E-10 -3.85129803E-11 -2.04082114E-12 - -2.04082114E-12 -3.85129803E-11 1.61342522E-10 -3.85129803E-11 - -3.85129803E-11 -2.04082114E-12 -3.85129803E-11 1.61342522E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1621560235622190E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501146E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3625631951265863E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501170E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501146E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1621560235622203E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501497E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3625631951265793E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3625631951265863E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501497E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1621560235622233E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501782E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501170E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3625631951265793E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7618129497501782E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.1621560235622186E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 4 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.6134252224878675E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274242548E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0408211379472200E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274242859E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274242548E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.6134252224878644E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274243182E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0408211379465091E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0408211379472200E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274243182E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.6134252224878677E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274243466E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274242859E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -2.0408211379465091E-012 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - -0.0000000000000000 -3.8512980274243466E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.6134252224878649E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 9 - 3 - 10 - 4 - 11 - 5 - 12 - 13 - 13 - 13 - 13 - 0 - # number of conductors in each domain - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 2 - 5 - 2 - # External conductor information and dielectric model - 1 conductor type - 2.3999999999999998E-003 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 2.6500000000000000E-003 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 - Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec deleted file mode 100644 index 466742d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 1.683E-04 # parameter 1: inner conductor radius - 3.625E-04 # parameter 2: inner dielectric radius - 7.350E-04 # parameter 3: inner conductor separation - 7.500E-04 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 9.500E-04 # parameter 6: inner shield jacket radius - 1.351E-03 # parameter 7: shielded twisted pair radius - 2.400E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 2.650E-03 # parameter 10:outer dielectric radius - 4.389E+07 # parameter 11: inner wire conductor conductivity - 4.389E+07 # parameter 12: inner shield conductivity - 4.389E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 6.200E-02 -4.4E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.7e-2 -4.7E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable deleted file mode 100644 index df56df5..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable +++ /dev/null @@ -1,141 +0,0 @@ -v3.0.3 -shielded_twisted_pair - 5 # cable type number - 3 # Total Number of conductors - 1 # Number of external conductors - 3 # Total number of domains (including external domain) - 2 # Number of internal conductors - 2 # Number of internal domains - 8 # Number of cable parameters - 2.1850000000000000E-004 - 3.4000000000000002E-004 - 6.8999999999999997E-004 - 6.9999999999999999E-004 - 0.0000000000000000 - 8.9999999999999998E-004 - 39220000.000000000 - 39220000.000000000 - 2 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 2 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.1850000000000000E-004 # conductor radius - 39220000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1850000000000000E-004 # conductor radius - 39220000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 4 # Conductor impedance model type - 6.9999999999999999E-004 # conductor radius - 39220000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 4.1408210901324637E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.14000000000000001 2.7000000000000002E-009 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - External to domain conductor current transformation matrix, MI - 4 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 4 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 2.55745483E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 7.14057306E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.5574548317213893E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.1405730553725655E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 2 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 9.52049852E-08 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 1.79639890E-10 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 9.5204985199777693E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7963989026287757E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 3 - 0 - # number of conductors in each domain - 2 - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 6.9999999999999999E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 8.9999999999999998E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 - Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec deleted file mode 100644 index bf7c0d6..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_AWG_26_ESCC_3901025_V12.cable_spec +++ /dev/null @@ -1,34 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Shielded_twisted_pair -3 # number of conductors -8 # number of parameters - 2.185E-04 # parameter 1: inner conductor radius - 3.400E-04 # parameter 2: inner dielectric radius - 6.900E-04 # parameter 3: inner conductor separation - 7.000E-04 # parameter 4: shield radius - 0.000E+00 # parameter 5: shield thickness - 9.000E-04 # parameter 6:outer dielectric radius - 3.922E+07 # parameter 7: inner conductor conductivity - 3.922E+07 # parameter 8: shield conductivity -2 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -1 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.400E-01 2.700E-09 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable deleted file mode 100644 index 8a3b7bc..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable +++ /dev/null @@ -1,141 +0,0 @@ -v3.0.3 -shielded_twisted_pair - 5 # cable type number - 3 # Total Number of conductors - 1 # Number of external conductors - 3 # Total number of domains (including external domain) - 2 # Number of internal conductors - 2 # Number of internal domains - 8 # Number of cable parameters - 2.1110000000000001E-004 - 5.0000000000000001E-004 - 1.0100000000000000E-003 - 1.0499999999999999E-003 - 0.0000000000000000 - 1.2500000000000000E-003 - 44920000.000000000 - 44920000.000000000 - 2 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.3000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Dielectric filter number 2 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.1110000000000001E-004 # conductor radius - 44920000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.1110000000000001E-004 # conductor radius - 44920000.000000000 # conductivity - 0.50000000000000000 # Resistance_multiplication_factor - 4 # Conductor impedance model type - 1.0499999999999999E-003 # conductor radius - 44920000.000000000 # conductivity - 1.0000000000000000 # Resistance_multiplication_factor - 3.3743574416294646E-005 # shield thickness - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.10000000000000001 5.0349999999999997E-010 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - External to domain conductor current transformation matrix, MI - 4 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 4 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.31971626E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.17032929E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.3197162620952947E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.1703292879788645E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Domain number 2 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 1.50805954E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 8.78367705E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.5080595434410046E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 8.7836770483613123E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 3 - 0 - # number of conductors in each domain - 2 - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 1.0499999999999999E-003 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 1.2500000000000000E-003 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 - Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec deleted file mode 100644 index 3e9d81d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec +++ /dev/null @@ -1,34 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Shielded_twisted_pair -3 # number of conductors -8 # number of parameters - 2.111E-04 # parameter 1: inner conductor radius - 5.000E-04 # parameter 2: inner dielectric radius - 1.010E-03 # parameter 3: inner conductor separation - 1.050E-03 # parameter 4: shield radius - 0.000E+00 # parameter 5: shield thickness - 1.250E-03 # parameter 6:outer dielectric radius - 4.492E+07 # parameter 7: inner conductor conductivity - 4.492E+07 # parameter 8: shield conductivity -2 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.300E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -1 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.000E-01 5.035E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable deleted file mode 100644 index f12c448..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable +++ /dev/null @@ -1,1094 +0,0 @@ -v3.0.3 -dconnector - 9 # cable type number - 10 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 9 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 4.2999999999999999E-004 - 1.2700000000000001E-003 - 1.0900000000000000E-003 - 1.3699999999999999E-003 - 0 # number of frequency dependent dielectric models - # Conductor impedance models - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - 0 # Conductor impedance model type - External to domain conductor current transformation matrix, MI - 11 Dimension of MI - 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 11 Dimension of MV - 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 0.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 10 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 9 Dimension of L - 2.87443395E-07 1.24866405E-07 6.28518213E-08 3.29886533E-08 1.72721898E-08 1.26105708E-07 7.80980314E-08 4.37706974E-08 2.37232004E-08 - 1.24866405E-07 2.85319745E-07 1.26318918E-07 6.37675842E-08 3.29966361E-08 1.30614109E-07 1.31685765E-07 8.02819438E-08 4.45245454E-08 - 6.28518213E-08 1.26318918E-07 2.86154250E-07 1.26324135E-07 6.28694087E-08 7.99830537E-08 1.32169474E-07 1.32229052E-07 8.00012233E-08 - 3.29886533E-08 6.37675842E-08 1.26324135E-07 2.85338325E-07 1.24902843E-07 4.45154127E-08 8.02463816E-08 1.31638694E-07 1.30635222E-07 - 1.72721898E-08 3.29966361E-08 6.28694087E-08 1.24902843E-07 2.87433517E-07 2.37240183E-08 4.37617074E-08 7.80850257E-08 1.26101190E-07 - 1.26105708E-07 1.30614109E-07 7.99830537E-08 4.45154127E-08 2.37240183E-08 2.86275658E-07 1.26120974E-07 6.37693004E-08 3.34564904E-08 - 7.80980314E-08 1.31685765E-07 1.32169474E-07 8.02463816E-08 4.37617074E-08 1.26120974E-07 2.85949291E-07 1.26534509E-07 6.37540302E-08 - 4.37706974E-08 8.02819438E-08 1.32229052E-07 1.31638694E-07 7.80850257E-08 6.37693004E-08 1.26534509E-07 2.85943944E-07 1.26089868E-07 - 2.37232004E-08 4.45245454E-08 8.00012233E-08 1.30635222E-07 1.26101190E-07 3.34564904E-08 6.37540302E-08 1.26089868E-07 2.86270401E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 9 Dimension of C - 5.25314050E-11 -1.55826913E-11 -1.70112343E-13 -1.08686934E-14 -7.24995572E-16 -1.59591610E-11 -4.98727288E-14 -1.12534873E-15 -7.45876305E-17 - -1.55826913E-11 6.42979328E-11 -1.55566330E-11 -1.68581585E-13 -1.08698376E-14 -1.25565387E-11 -1.25622417E-11 -3.33155213E-14 -1.04270924E-16 - -1.70112343E-13 -1.55566330E-11 6.43092451E-11 -1.55558409E-11 -1.70136770E-13 -3.44701459E-14 -1.25394096E-11 -1.25656981E-11 -3.33150531E-14 - -1.08686934E-14 -1.68581585E-13 -1.55558409E-11 6.42931103E-11 -1.55907338E-11 -1.04607449E-16 -3.43321697E-14 -1.25424239E-11 -1.25651118E-11 - -7.24995572E-16 -1.08698376E-14 -1.70136770E-13 -1.55907338E-11 5.25373307E-11 -7.44309605E-17 -1.12481409E-15 -5.11092348E-14 -1.59558588E-11 - -1.59591610E-11 -1.25565387E-11 -3.44701459E-14 -1.04607449E-16 -7.44309605E-17 5.85402431E-11 -1.55851081E-11 -1.69479913E-13 -1.08662024E-14 - -4.98727288E-14 -1.25622417E-11 -1.25394096E-11 -3.43321697E-14 -1.12481409E-15 -1.55851081E-11 6.43121091E-11 -1.55592531E-11 -1.69639524E-13 - -1.12534873E-15 -3.33155213E-14 -1.25656981E-11 -1.25424239E-11 -5.11092348E-14 -1.69479913E-13 -1.55592531E-11 6.43125436E-11 -1.55790341E-11 - -7.45876305E-17 -1.04270924E-16 -3.33150531E-14 -1.25651118E-11 -1.59558588E-11 -1.08662024E-14 -1.69639524E-13 -1.55790341E-11 5.85397869E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 9 # dimension of Sfilter matrix 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1.7272189756799121E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 6 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2610570820574875E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 7 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 7.8098031446437657E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 8 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.3770697431302342E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 1 9 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.3723200401099089E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2486640487466098E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.8531974452952036E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2631891789648712E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 6.3767584216890653E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 5 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.2996636062938436E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 6 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3061410935084449E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 7 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3168576489884346E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 8 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 8.0281943773314858E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 2 9 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.4524545369761785E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 6.2851821300440547E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2631891789648712E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.8615425004695005E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2632413465989848E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 3 5 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 6.2869408688523413E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 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3.2988653321528033E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 2 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 6.3767584216890653E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 3 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2632413465989848E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 4 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.8533832500556564E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 5 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.2490284335965771E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 6 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.4515412716521354E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 7 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 8.0246381550622921E-008 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 8 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3163869357839166E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 4 9 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.3063522166390176E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 -Element: 5 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 1.7272189756799121E-008 - 0 # b order, b 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1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 1.0000000000000000 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor - Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec deleted file mode 100644 index 447c0a0..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/SpaceWire_connector.cable_spec +++ /dev/null @@ -1,15 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Dconnector -10 # number of conductors. This model from ESCC 3401/071, 9 pin connector -4 # number of parameters -0.43e-3 # parameter 1: conductor radius: fig 2.1 a,b -1.27e-3 # parameter 2: conductor pitch (separation in x): fig 2.1 a,b -1.09e-3 # parameter 3: conductor separation in y: fig 2.1 a,b -1.37e-3 # parameter 4: offset from conductors to shell:fig 2.1 a,b; 0.5*(G-yseparation-2*rw) -0 # number of frequency dependent parameters -0 # number of transfer impedance models -use_laplace -plot_mesh -plot_potential - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable deleted file mode 100644 index 912ec73..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 4.3700000000000000E-004 - 1.3600000000000001E-003 - 6.4000000000000005E-004 - 49310000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 49310000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 49310000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.04387454E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.75144554E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.0438745443881406E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7514455353100130E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 6.5550000000000005E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 8.5850000000000011E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec deleted file mode 100644 index 07ccb53..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901002_V34.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.360E-03 # parameter 2: inner conductor separation - 6.400E-04 # parameter 3: inner dielectric radius - 4.931E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable deleted file mode 100644 index 209aa21..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 4.3700000000000000E-004 - 1.5200000000000001E-003 - 7.3999999999999999E-004 - 47620000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 47620000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 47620000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.60482645E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.41626925E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.6048264541882186E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.4162692494937998E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 6.5550000000000005E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 9.5850000000000004E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec deleted file mode 100644 index 3a18e95..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901019_V14.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.520E-03 # parameter 2: inner conductor separation - 7.400E-04 # parameter 3: inner dielectric radius - 4.762E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable deleted file mode 100644 index 0358a5b..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 4.3700000000000000E-004 - 1.2400000000000000E-003 - 6.1499999999999999E-004 - 47620000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 47620000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 4.3700000000000000E-004 # conductor radius - 47620000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.54363904E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 3.13985155E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.5436390443054571E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.1398515541221902E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 6.5550000000000005E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 8.3350000000000004E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec deleted file mode 100644 index 4842d47..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_20_ESCC_3901025_V10.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.240E-03 # parameter 2: inner conductor separation - 6.150E-04 # parameter 3: inner dielectric radius - 4.762E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable deleted file mode 100644 index 9495cd0..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 3.4780000000000000E-004 - 1.1600000000000000E-003 - 5.4000000000000001E-004 - 49190000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 3.4780000000000000E-004 # conductor radius - 49190000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 3.4780000000000000E-004 # conductor radius - 49190000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.39732308E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.53028953E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.3973230795281591E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.5302895328092327E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 5.2169999999999994E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 7.1389999999999995E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec deleted file mode 100644 index 0751e36..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901002_V33.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.478E-04 # parameter 1: inner conductor radius - 1.160E-03 # parameter 2: inner conductor separation - 5.400E-04 # parameter 3: inner dielectric radius - 4.919E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable deleted file mode 100644 index b1b86ac..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 3.5680000000000000E-004 - 1.2500000000000000E-003 - 6.2000000000000000E-004 - 39680000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 3.5680000000000000E-004 # conductor radius - 39680000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 3.5680000000000000E-004 # conductor radius - 39680000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.63992181E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.39799312E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.6399218077485889E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.3979931174550182E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 5.3520000000000000E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 7.9840000000000000E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec deleted file mode 100644 index 6accf0d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901019_V13.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.568E-04 # parameter 1: inner conductor radius - 1.250E-03 # parameter 2: inner conductor separation - 6.200E-04 # parameter 3: inner dielectric radius - 3.968E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable deleted file mode 100644 index ea62cfa..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 3.5680000000000000E-004 - 1.1000000000000001E-003 - 5.4500000000000002E-004 - 39680000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 3.5680000000000000E-004 # conductor radius - 39680000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 3.5680000000000000E-004 # conductor radius - 39680000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 3.99454647E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.78542273E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 3.9945464730750421E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.7854227345977704E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 5.3520000000000000E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 7.2340000000000002E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec deleted file mode 100644 index de15ac8..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_22_ESCC_3901025_V09.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.568E-04 # parameter 1: inner conductor radius - 1.100E-03 # parameter 2: inner conductor separation - 5.450E-04 # parameter 3: inner dielectric radius - 3.968E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable deleted file mode 100644 index c35e2e2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 2.5849999999999999E-004 - 9.6000000000000002E-004 - 4.4000000000000002E-004 - 43290000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.5849999999999999E-004 # conductor radius - 43290000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.5849999999999999E-004 # conductor radius - 43290000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.92026968E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.26135990E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.9202696801213545E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.2613599017678514E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 3.8774999999999997E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 5.6924999999999999E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec deleted file mode 100644 index fa67b1a..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901002_V32.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.585E-04 # parameter 1: inner conductor radius - 9.600E-04 # parameter 2: inner conductor separation - 4.400E-04 # parameter 3: inner dielectric radius - 4.329E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable deleted file mode 100644 index 8e4f736..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 2.8210000000000003E-004 - 1.1700000000000000E-003 - 5.6499999999999996E-004 - 33330000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.8210000000000003E-004 # conductor radius - 33330000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.8210000000000003E-004 # conductor radius - 33330000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 5.43407265E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.04754358E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 5.4340726470093728E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.0475435797925892E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 4.2315000000000007E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 7.0604999999999995E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 3.3999999999999999 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec deleted file mode 100644 index e2c9e15..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901019_V12.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.821E-04 # parameter 1: inner conductor radius - 1.170E-03 # parameter 2: inner conductor separation - 5.650E-04 # parameter 3: inner dielectric radius - 3.333E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable deleted file mode 100644 index 77542d3..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable +++ /dev/null @@ -1,90 +0,0 @@ -v3.0.3 -twisted_pair - 2 # cable type number - 2 # Total Number of conductors - 1 # Number of external conductors - 2 # Total number of domains (including external domain) - 1 # Number of internal conductors - 1 # Number of internal domains - 4 # Number of cable parameters - 2.8210000000000003E-004 - 8.9999999999999998E-004 - 4.4499999999999997E-004 - 33330000.000000000 - 1 # number of frequency dependent dielectric models - # Dielectric filter number 1 - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor impedance models - 1 # Conductor impedance model type - 2.8210000000000003E-004 # conductor radius - 33330000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - 1 # Conductor impedance model type - 2.8210000000000003E-004 # conductor radius - 33330000.000000000 # conductivity - 1.5000000000000000 # Resistance_multiplication_factor - External to domain conductor current transformation matrix, MI - 3 Dimension of MI - 5.00000000E-01 -5.00000000E-01 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 0.00000000E+00 - 1.00000000E+00 1.00000000E+00 1.00000000E+00 - External to domain conductor voltage transformation matrix, MV - 3 Dimension of MV - 1.00000000E+00 -1.00000000E+00 0.00000000E+00 - 5.00000000E-01 5.00000000E-01 -1.00000000E+00 - 0.00000000E+00 0.00000000E+00 1.00000000E+00 - Domain number 1 - 2 # number of conductors - High frequency Per-Unit-length Inductance Matrix, L - 1 Dimension of L - 4.17239383E-07 - High frequency Per-Unit-length Capacitance Matrix, C - 1 Dimension of C - 2.66669471E-11 - Per-Unit-length Impedance Matrix, Z - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 4.1723938277170263E-007 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - Per-Unit-length Admittance Matrix, Y - Matrix of Laplace domain filters - 1 # dimension of Sfilter matrix -Element: 1 1 - 1.0000000000000000 # w normalisation constant - 1 # a order, a coefficients follow below: - 0.0000000000000000 2.6666947129002337E-011 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Local reference conductor for internal domains - 2 - 0 - # number of conductors in each domain - 2 - 2 - # External conductor information and dielectric model - 1 conductor type - 4.2315000000000007E-004 conductor_radius - 0.0000000000000000 conductor_width - 0.0000000000000000 conductor_width2 - 0.0000000000000000 conductor_height - 0.0000000000000000 conductor_ox - 5.8605000000000007E-004 dielectric_radius - 0.0000000000000000 dielectric_width - 0.0000000000000000 dielectric_height - 0.0000000000000000 dielectric_ox - 1.0000000000000000 # w normalisation constant - 0 # a order, a coefficients follow below: - 2.1000000000000001 - 0 # b order, b coefficients follow below: - 1.0000000000000000 - # Conductor labels - Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 - Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec deleted file mode 100644 index 5f5e329..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/TP_AWG_24_ESCC_3901025_V08.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.821E-04 # parameter 1: inner conductor radius - 9.000E-04 # parameter 2: inner conductor separation - 4.450E-04 # parameter 3: inner dielectric radius - 3.333E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/readme.md b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/readme.md deleted file mode 100644 index 555229c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/CABLE/readme.md +++ /dev/null @@ -1 +0,0 @@ -Directory for individual cable models diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec deleted file mode 100644 index 51361db..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec deleted file mode 100644 index e74b915..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -# cable bundle length (m) -0.1 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 1 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib deleted file mode 100644 index 660b10c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib +++ /dev/null @@ -1,3532 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-02 -Rdc_c2_e1 3 31 1.279876E-02 -Rdc_c3_e1 4 32 1.279876E-02 -Rdc_c4_e1 5 33 1.279876E-02 -Rdc_c5_e1 6 34 1.279876E-02 -Rdc_c6_e1 7 35 1.279876E-02 -Rdc_c7_e1 8 36 1.279876E-02 -Rdc_c8_e1 9 37 1.279876E-02 -Rdc_c9_e1 10 38 3.350000E-03 -Rdc_c10_e1 11 39 3.350000E-03 -Rdc_c11_e1 12 40 3.350000E-03 -Rdc_c12_e1 13 41 3.350000E-03 -Rdc_c13_e1 14 42 7.000000E-04 -Rdc_c14_e1 15 1 5.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-02 -Rdc_c2_e2 17 44 1.279876E-02 -Rdc_c3_e2 18 45 1.279876E-02 -Rdc_c4_e2 19 46 1.279876E-02 -Rdc_c5_e2 20 47 1.279876E-02 -Rdc_c6_e2 21 48 1.279876E-02 -Rdc_c7_e2 22 49 1.279876E-02 -Rdc_c8_e2 23 50 1.279876E-02 -Rdc_c9_e2 24 51 3.350000E-03 -Rdc_c10_e2 25 52 3.350000E-03 -Rdc_c11_e2 26 53 3.350000E-03 -Rdc_c12_e2 27 54 3.350000E-03 -Rdc_c13_e2 28 55 7.000000E-04 -Rdc_c14_e2 29 1 5.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 2.8446E-08 -RFilter_m_d1_m1_e101 428 429 7.8596E-03 -* -RFilter_m_d1_m1_e102 429 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 432 433 2.8446E-08 -RFilter_m_d1_m1_e201 432 433 7.8596E-03 -* -RFilter_m_d1_m1_e202 433 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 430 1 434 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 435 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 430 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 -RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 -* -RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 -RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 -* -RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 -RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 -* -RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 -RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 -* -RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 451 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 453 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 450 456 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 452 457 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 460 461 2.7136E-08 -RFilter_m_d2_m1_e101 460 461 8.2298E-03 -* -RFilter_m_d2_m1_e102 461 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 464 465 2.7136E-08 -RFilter_m_d2_m1_e201 464 465 8.2298E-03 -* -RFilter_m_d2_m1_e202 465 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 462 1 466 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 458 1 467 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 462 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 458 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 -RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 -* -RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 -RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 -* -RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 -RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 -* -RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 -RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 -* -RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 483 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 485 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 482 486 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 484 487 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 490 491 1.8924E-08 -RFilter_m_d3_m1_e101 490 491 1.1813E-02 -* -RFilter_m_d3_m1_e102 491 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 494 495 1.8924E-08 -RFilter_m_d3_m1_e201 494 495 1.1813E-02 -* -RFilter_m_d3_m1_e202 495 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 492 1 496 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 488 1 497 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 492 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 488 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 -RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 -* -RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 -RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 -* -RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 -RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 -* -RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 -RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 -* -RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 513 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 515 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 512 516 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 514 517 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 520 521 2.7136E-08 -RFilter_m_d4_m1_e101 520 521 8.2298E-03 -* -RFilter_m_d4_m1_e102 521 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 524 525 2.7136E-08 -RFilter_m_d4_m1_e201 524 525 8.2298E-03 -* -RFilter_m_d4_m1_e202 525 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 522 1 526 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 518 1 527 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 522 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 518 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 -RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 -* -RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 -RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 -* -RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 -RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 -* -RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 -RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 -* -RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 543 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 545 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 542 546 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 544 547 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 550 551 2.8446E-08 -RFilter_m_d5_m1_e101 550 551 7.8596E-03 -* -RFilter_m_d5_m1_e102 551 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 554 555 2.8446E-08 -RFilter_m_d5_m1_e201 554 555 7.8596E-03 -* -RFilter_m_d5_m1_e202 555 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 552 1 556 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 548 1 557 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 552 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 548 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 -RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 -* -RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 -RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 -* -RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 -RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 -* -RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 -RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 -* -RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 573 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 575 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 572 576 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 574 577 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 580 581 2.7136E-08 -RFilter_m_d6_m1_e101 580 581 8.2298E-03 -* -RFilter_m_d6_m1_e102 581 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 584 585 2.7136E-08 -RFilter_m_d6_m1_e201 584 585 8.2298E-03 -* -RFilter_m_d6_m1_e202 585 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 582 1 586 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 578 1 587 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 582 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 578 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 -RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 -* -RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 -RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 -* -RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 -RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 -* -RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 -RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 -* -RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 602 606 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 604 607 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 610 611 1.8924E-08 -RFilter_m_d7_m1_e101 610 611 1.1813E-02 -* -RFilter_m_d7_m1_e102 611 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 614 615 1.8924E-08 -RFilter_m_d7_m1_e201 614 615 1.1813E-02 -* -RFilter_m_d7_m1_e202 615 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 612 1 616 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 608 1 617 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 612 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 608 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 -RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 -* -RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 -RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 -* -RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 -RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 -* -RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 -RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 -* -RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 633 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 635 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 632 636 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 634 637 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 640 641 2.7136E-08 -RFilter_m_d8_m1_e101 640 641 8.2298E-03 -* -RFilter_m_d8_m1_e102 641 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 644 645 2.7136E-08 -RFilter_m_d8_m1_e201 644 645 8.2298E-03 -* -RFilter_m_d8_m1_e202 645 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 642 1 646 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 638 1 647 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 642 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 638 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 -RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 -* -RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 -RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 -* -RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 -RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 -* -RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 -RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 -* -RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 666 -Vmeas_mode_decomp_d9_c2_e1 65 670 -Vmeas_mode_decomp_d9_c3_e1 66 674 -Vmeas_mode_decomp_d9_c4_e1 67 678 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 686 -Vmeas_mode_decomp_d9_c2_e2 247 690 -Vmeas_mode_decomp_d9_c3_e2 248 694 -Vmeas_mode_decomp_d9_c4_e2 249 698 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 662 710 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 682 711 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 714 715 2.3026E-08 -RFilter_m_d9_m1_e101 714 715 9.6704E-03 -* -RFilter_m_d9_m1_e102 715 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 718 719 2.3026E-08 -RFilter_m_d9_m1_e201 718 719 9.6704E-03 -* -RFilter_m_d9_m1_e202 719 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 716 1 720 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 712 1 721 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 716 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 712 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 -RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 -* -RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 -RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 -* -RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 -RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 -* -RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 -RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 -* -RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 663 736 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 683 737 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 740 741 3.1648E-08 -RFilter_m_d9_m2_e101 740 741 7.1113E-03 -* -RFilter_m_d9_m2_e102 741 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 744 745 3.1648E-08 -RFilter_m_d9_m2_e201 744 745 7.1113E-03 -* -RFilter_m_d9_m2_e202 745 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 742 1 746 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 738 1 747 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 742 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 738 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 -RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 -* -RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 -RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 -* -RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 -RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 -* -RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 -RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 -* -RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 664 762 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 684 763 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 766 767 3.5000E-08 -RFilter_m_d9_m3_e101 766 767 6.3646E-03 -* -RFilter_m_d9_m3_e102 767 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 770 771 3.5000E-08 -RFilter_m_d9_m3_e201 770 771 6.3646E-03 -* -RFilter_m_d9_m3_e202 771 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 768 1 772 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 764 1 773 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 768 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 764 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 -RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 -* -RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 -RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 -* -RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 -RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 -* -RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 -RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 -* -RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 665 788 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 685 789 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 792 793 3.5000E-08 -RFilter_m_d9_m4_e101 792 793 6.3646E-03 -* -RFilter_m_d9_m4_e102 793 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 796 797 3.5000E-08 -RFilter_m_d9_m4_e201 796 797 6.3646E-03 -* -RFilter_m_d9_m4_e202 797 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 794 1 798 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 790 1 799 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 794 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 790 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 -RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 -* -RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 -RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 -* -RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 -RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 -* -RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 -RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 -* -RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 815 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 817 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 814 818 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 816 819 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 818 1 820 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 819 1 821 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 821 1 822 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 820 1 823 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 821 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 820 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 -E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 -E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 -RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 -* -RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 -RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 -* -RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib deleted file mode 100644 index ef23eb5..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib +++ /dev/null @@ -1,3532 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-02 -Rdc_c2_e1 3 31 1.279876E-02 -Rdc_c3_e1 4 32 1.279876E-02 -Rdc_c4_e1 5 33 1.279876E-02 -Rdc_c5_e1 6 34 1.279876E-02 -Rdc_c6_e1 7 35 1.279876E-02 -Rdc_c7_e1 8 36 1.279876E-02 -Rdc_c8_e1 9 37 1.279876E-02 -Rdc_c9_e1 10 38 3.350000E-03 -Rdc_c10_e1 11 39 3.350000E-03 -Rdc_c11_e1 12 40 3.350000E-03 -Rdc_c12_e1 13 41 3.350000E-03 -Rdc_c13_e1 14 42 7.000000E-04 -Rdc_c14_e1 15 1 5.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-02 -Rdc_c2_e2 17 44 1.279876E-02 -Rdc_c3_e2 18 45 1.279876E-02 -Rdc_c4_e2 19 46 1.279876E-02 -Rdc_c5_e2 20 47 1.279876E-02 -Rdc_c6_e2 21 48 1.279876E-02 -Rdc_c7_e2 22 49 1.279876E-02 -Rdc_c8_e2 23 50 1.279876E-02 -Rdc_c9_e2 24 51 3.350000E-03 -Rdc_c10_e2 25 52 3.350000E-03 -Rdc_c11_e2 26 53 3.350000E-03 -Rdc_c12_e2 27 54 3.350000E-03 -Rdc_c13_e2 28 55 7.000000E-04 -Rdc_c14_e2 29 1 5.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 2.8446E-08 -RFilter_m_d1_m1_e101 428 429 7.8596E-03 -* -RFilter_m_d1_m1_e102 429 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 432 433 2.8446E-08 -RFilter_m_d1_m1_e201 432 433 7.8596E-03 -* -RFilter_m_d1_m1_e202 433 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 430 1 434 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 435 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 430 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 -RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 -* -RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 -RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 -* -RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 -RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 -* -RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 -RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 -* -RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 451 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 453 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 450 456 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 452 457 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 460 461 2.7136E-08 -RFilter_m_d2_m1_e101 460 461 8.2298E-03 -* -RFilter_m_d2_m1_e102 461 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 464 465 2.7136E-08 -RFilter_m_d2_m1_e201 464 465 8.2298E-03 -* -RFilter_m_d2_m1_e202 465 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 462 1 466 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 458 1 467 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 462 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 458 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 -RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 -* -RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 -RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 -* -RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 -RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 -* -RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 -RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 -* -RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 483 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 485 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 482 486 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 484 487 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 490 491 1.8924E-08 -RFilter_m_d3_m1_e101 490 491 1.1813E-02 -* -RFilter_m_d3_m1_e102 491 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 494 495 1.8924E-08 -RFilter_m_d3_m1_e201 494 495 1.1813E-02 -* -RFilter_m_d3_m1_e202 495 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 492 1 496 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 488 1 497 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 492 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 488 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 -RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 -* -RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 -RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 -* -RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 -RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 -* -RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 -RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 -* -RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 513 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 515 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 512 516 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 514 517 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 520 521 2.7136E-08 -RFilter_m_d4_m1_e101 520 521 8.2298E-03 -* -RFilter_m_d4_m1_e102 521 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 524 525 2.7136E-08 -RFilter_m_d4_m1_e201 524 525 8.2298E-03 -* -RFilter_m_d4_m1_e202 525 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 522 1 526 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 518 1 527 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 522 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 518 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 -RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 -* -RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 -RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 -* -RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 -RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 -* -RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 -RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 -* -RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 543 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 545 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 542 546 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 544 547 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 550 551 2.8446E-08 -RFilter_m_d5_m1_e101 550 551 7.8596E-03 -* -RFilter_m_d5_m1_e102 551 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 554 555 2.8446E-08 -RFilter_m_d5_m1_e201 554 555 7.8596E-03 -* -RFilter_m_d5_m1_e202 555 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 552 1 556 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 548 1 557 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 552 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 548 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 -RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 -* -RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 -RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 -* -RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 -RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 -* -RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 -RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 -* -RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 573 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 575 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 572 576 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 574 577 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 580 581 2.7136E-08 -RFilter_m_d6_m1_e101 580 581 8.2298E-03 -* -RFilter_m_d6_m1_e102 581 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 584 585 2.7136E-08 -RFilter_m_d6_m1_e201 584 585 8.2298E-03 -* -RFilter_m_d6_m1_e202 585 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 582 1 586 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 578 1 587 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 582 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 578 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 -RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 -* -RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 -RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 -* -RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 -RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 -* -RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 -RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 -* -RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 602 606 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 604 607 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 610 611 1.8924E-08 -RFilter_m_d7_m1_e101 610 611 1.1813E-02 -* -RFilter_m_d7_m1_e102 611 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 614 615 1.8924E-08 -RFilter_m_d7_m1_e201 614 615 1.1813E-02 -* -RFilter_m_d7_m1_e202 615 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 612 1 616 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 608 1 617 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 612 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 608 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 -RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 -* -RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 -RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 -* -RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 -RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 -* -RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 -RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 -* -RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 633 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 635 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 632 636 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 634 637 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 640 641 2.7136E-08 -RFilter_m_d8_m1_e101 640 641 8.2298E-03 -* -RFilter_m_d8_m1_e102 641 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 644 645 2.7136E-08 -RFilter_m_d8_m1_e201 644 645 8.2298E-03 -* -RFilter_m_d8_m1_e202 645 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 642 1 646 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 638 1 647 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 642 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 638 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 -RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 -* -RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 -RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 -* -RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 -RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 -* -RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 -RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 -* -RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 666 -Vmeas_mode_decomp_d9_c2_e1 65 670 -Vmeas_mode_decomp_d9_c3_e1 66 674 -Vmeas_mode_decomp_d9_c4_e1 67 678 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 686 -Vmeas_mode_decomp_d9_c2_e2 247 690 -Vmeas_mode_decomp_d9_c3_e2 248 694 -Vmeas_mode_decomp_d9_c4_e2 249 698 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 662 710 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 682 711 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 714 715 2.3026E-08 -RFilter_m_d9_m1_e101 714 715 9.6704E-03 -* -RFilter_m_d9_m1_e102 715 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 718 719 2.3026E-08 -RFilter_m_d9_m1_e201 718 719 9.6704E-03 -* -RFilter_m_d9_m1_e202 719 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 716 1 720 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 712 1 721 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 716 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 712 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 -RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 -* -RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 -RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 -* -RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 -RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 -* -RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 -RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 -* -RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 663 736 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 683 737 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 740 741 3.1648E-08 -RFilter_m_d9_m2_e101 740 741 7.1113E-03 -* -RFilter_m_d9_m2_e102 741 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 744 745 3.1648E-08 -RFilter_m_d9_m2_e201 744 745 7.1113E-03 -* -RFilter_m_d9_m2_e202 745 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 742 1 746 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 738 1 747 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 742 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 738 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 -RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 -* -RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 -RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 -* -RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 -RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 -* -RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 -RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 -* -RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 664 762 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 684 763 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 766 767 3.5000E-08 -RFilter_m_d9_m3_e101 766 767 6.3646E-03 -* -RFilter_m_d9_m3_e102 767 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 770 771 3.5000E-08 -RFilter_m_d9_m3_e201 770 771 6.3646E-03 -* -RFilter_m_d9_m3_e202 771 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 768 1 772 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 764 1 773 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 768 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 764 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 -RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 -* -RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 -RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 -* -RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 -RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 -* -RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 -RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 -* -RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 665 788 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 685 789 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 792 793 3.5000E-08 -RFilter_m_d9_m4_e101 792 793 6.3646E-03 -* -RFilter_m_d9_m4_e102 793 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 796 797 3.5000E-08 -RFilter_m_d9_m4_e201 796 797 6.3646E-03 -* -RFilter_m_d9_m4_e202 797 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 794 1 798 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 790 1 799 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 794 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 790 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 -RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 -* -RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 -RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 -* -RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 -RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 -* -RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 -RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 -* -RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 815 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 817 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 814 818 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 816 819 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 818 1 820 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 819 1 821 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 821 1 822 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 820 1 823 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 821 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 820 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 -E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 -E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 -RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 -* -RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 -RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 -* -RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E-01 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E-01 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib deleted file mode 100644 index bf02ce3..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_PSpice.lib +++ /dev/null @@ -1,3532 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-02 -Rdc_c2_e1 3 31 1.279876E-02 -Rdc_c3_e1 4 32 1.279876E-02 -Rdc_c4_e1 5 33 1.279876E-02 -Rdc_c5_e1 6 34 1.279876E-02 -Rdc_c6_e1 7 35 1.279876E-02 -Rdc_c7_e1 8 36 1.279876E-02 -Rdc_c8_e1 9 37 1.279876E-02 -Rdc_c9_e1 10 38 3.350000E-03 -Rdc_c10_e1 11 39 3.350000E-03 -Rdc_c11_e1 12 40 3.350000E-03 -Rdc_c12_e1 13 41 3.350000E-03 -Rdc_c13_e1 14 42 7.000000E-04 -Rdc_c14_e1 15 1 5.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-02 -Rdc_c2_e2 17 44 1.279876E-02 -Rdc_c3_e2 18 45 1.279876E-02 -Rdc_c4_e2 19 46 1.279876E-02 -Rdc_c5_e2 20 47 1.279876E-02 -Rdc_c6_e2 21 48 1.279876E-02 -Rdc_c7_e2 22 49 1.279876E-02 -Rdc_c8_e2 23 50 1.279876E-02 -Rdc_c9_e2 24 51 3.350000E-03 -Rdc_c10_e2 25 52 3.350000E-03 -Rdc_c11_e2 26 53 3.350000E-03 -Rdc_c12_e2 27 54 3.350000E-03 -Rdc_c13_e2 28 55 7.000000E-04 -Rdc_c14_e2 29 1 5.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 2.8446E-08 -RFilter_m_d1_m1_e101 428 429 7.8596E-03 -* -RFilter_m_d1_m1_e102 429 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 432 430 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 432 433 2.8446E-08 -RFilter_m_d1_m1_e201 432 433 7.8596E-03 -* -RFilter_m_d1_m1_e202 433 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 432 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 430 1 434 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 426 1 435 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 430 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 438 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 438 439 2.8446E-08 -RFilter_m_pz_d1_m1_e101 438 439 7.8596E-03 -* -RFilter_m_pz_d1_m1_e102 439 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 434 436 438 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 441 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 441 442 2.8446E-08 -RFilter_m_pz_d1_m1_e201 441 442 7.8596E-03 -* -RFilter_m_pz_d1_m1_e202 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 436 1 441 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 445 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 445 446 2.8446E-08 -RFilter_m_mz_d1_m1_e101 445 446 7.8596E-03 -* -RFilter_m_mz_d1_m1_e102 446 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 435 443 445 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 448 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 448 449 2.8446E-08 -RFilter_m_mz_d1_m1_e201 448 449 7.8596E-03 -* -RFilter_m_mz_d1_m1_e202 449 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 443 1 448 1 -9.922016E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 451 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 451 1 450 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 450 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 453 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 453 1 452 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 452 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 450 456 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 452 457 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 460 458 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 460 461 2.7136E-08 -RFilter_m_d2_m1_e101 460 461 8.2298E-03 -* -RFilter_m_d2_m1_e102 461 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 456 454 460 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 464 462 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 464 465 2.7136E-08 -RFilter_m_d2_m1_e201 464 465 8.2298E-03 -* -RFilter_m_d2_m1_e202 465 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 457 455 464 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 462 1 466 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 458 1 467 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 462 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 458 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 470 450 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 470 471 2.7136E-08 -RFilter_m_pz_d2_m1_e101 470 471 8.2298E-03 -* -RFilter_m_pz_d2_m1_e102 471 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 466 468 470 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 473 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 473 474 2.7136E-08 -RFilter_m_pz_d2_m1_e201 473 474 8.2298E-03 -* -RFilter_m_pz_d2_m1_e202 474 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 468 1 473 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 477 452 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 477 478 2.7136E-08 -RFilter_m_mz_d2_m1_e101 477 478 8.2298E-03 -* -RFilter_m_mz_d2_m1_e102 478 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 467 475 477 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 480 457 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 480 481 2.7136E-08 -RFilter_m_mz_d2_m1_e201 480 481 8.2298E-03 -* -RFilter_m_mz_d2_m1_e202 481 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 475 1 480 1 -9.918374E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 483 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 483 1 482 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 482 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 485 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 485 1 484 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 484 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 482 486 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 484 487 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 490 488 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 490 491 1.8924E-08 -RFilter_m_d3_m1_e101 490 491 1.1813E-02 -* -RFilter_m_d3_m1_e102 491 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 486 1 490 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 494 492 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 494 495 1.8924E-08 -RFilter_m_d3_m1_e201 494 495 1.1813E-02 -* -RFilter_m_d3_m1_e202 495 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 487 1 494 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 492 1 496 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 488 1 497 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 492 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 488 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 500 482 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 500 501 1.8924E-08 -RFilter_m_pz_d3_m1_e101 500 501 1.1813E-02 -* -RFilter_m_pz_d3_m1_e102 501 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 496 498 500 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 503 486 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 503 504 1.8924E-08 -RFilter_m_pz_d3_m1_e201 503 504 1.1813E-02 -* -RFilter_m_pz_d3_m1_e202 504 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 498 1 503 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 507 484 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 507 508 1.8924E-08 -RFilter_m_mz_d3_m1_e101 507 508 1.1813E-02 -* -RFilter_m_mz_d3_m1_e102 508 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 497 505 507 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 510 487 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 510 511 1.8924E-08 -RFilter_m_mz_d3_m1_e201 510 511 1.1813E-02 -* -RFilter_m_mz_d3_m1_e202 511 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 505 1 510 1 -9.883250E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 513 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 513 1 512 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 512 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 515 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 515 1 514 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 514 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 512 516 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 514 517 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 520 518 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 520 521 2.7136E-08 -RFilter_m_d4_m1_e101 520 521 8.2298E-03 -* -RFilter_m_d4_m1_e102 521 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 516 1 520 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 524 522 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 524 525 2.7136E-08 -RFilter_m_d4_m1_e201 524 525 8.2298E-03 -* -RFilter_m_d4_m1_e202 525 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 517 1 524 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d4_m1_e1 522 1 526 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d4_m1_e2 518 1 527 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 522 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 518 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 530 512 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 530 531 2.7136E-08 -RFilter_m_pz_d4_m1_e101 530 531 8.2298E-03 -* -RFilter_m_pz_d4_m1_e102 531 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 526 528 530 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 533 516 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 533 534 2.7136E-08 -RFilter_m_pz_d4_m1_e201 533 534 8.2298E-03 -* -RFilter_m_pz_d4_m1_e202 534 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 528 1 533 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 537 514 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 537 538 2.7136E-08 -RFilter_m_mz_d4_m1_e101 537 538 8.2298E-03 -* -RFilter_m_mz_d4_m1_e102 538 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 527 535 537 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 540 517 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 540 541 2.7136E-08 -RFilter_m_mz_d4_m1_e201 540 541 8.2298E-03 -* -RFilter_m_mz_d4_m1_e202 541 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 535 1 540 1 -9.918374E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 543 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 543 1 542 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 542 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 545 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 545 1 544 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 544 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 542 546 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 544 547 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 550 548 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 550 551 2.8446E-08 -RFilter_m_d5_m1_e101 550 551 7.8596E-03 -* -RFilter_m_d5_m1_e102 551 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 546 1 550 1 9.922016E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 554 552 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 554 555 2.8446E-08 -RFilter_m_d5_m1_e201 554 555 7.8596E-03 -* -RFilter_m_d5_m1_e202 555 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 547 1 554 1 9.922016E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d5_m1_e1 552 1 556 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d5_m1_e2 548 1 557 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 552 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 548 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 560 542 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 560 561 2.8446E-08 -RFilter_m_pz_d5_m1_e101 560 561 7.8596E-03 -* -RFilter_m_pz_d5_m1_e102 561 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 556 558 560 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 563 546 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 563 564 2.8446E-08 -RFilter_m_pz_d5_m1_e201 563 564 7.8596E-03 -* -RFilter_m_pz_d5_m1_e202 564 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 558 1 563 1 -9.922016E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 567 544 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 567 568 2.8446E-08 -RFilter_m_mz_d5_m1_e101 567 568 7.8596E-03 -* -RFilter_m_mz_d5_m1_e102 568 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 557 565 567 1 1.984403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 570 547 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 570 571 2.8446E-08 -RFilter_m_mz_d5_m1_e201 570 571 7.8596E-03 -* -RFilter_m_mz_d5_m1_e202 571 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 565 1 570 1 -9.922016E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 573 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 573 1 572 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 572 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 575 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 575 1 574 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 574 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 572 576 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 574 577 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 580 578 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 580 581 2.7136E-08 -RFilter_m_d6_m1_e101 580 581 8.2298E-03 -* -RFilter_m_d6_m1_e102 581 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 576 1 580 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 584 582 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 584 585 2.7136E-08 -RFilter_m_d6_m1_e201 584 585 8.2298E-03 -* -RFilter_m_d6_m1_e202 585 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 577 1 584 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d6_m1_e1 582 1 586 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d6_m1_e2 578 1 587 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 582 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 578 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 590 572 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 590 591 2.7136E-08 -RFilter_m_pz_d6_m1_e101 590 591 8.2298E-03 -* -RFilter_m_pz_d6_m1_e102 591 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 586 588 590 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 593 576 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 593 594 2.7136E-08 -RFilter_m_pz_d6_m1_e201 593 594 8.2298E-03 -* -RFilter_m_pz_d6_m1_e202 594 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 588 1 593 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 597 574 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 597 598 2.7136E-08 -RFilter_m_mz_d6_m1_e101 597 598 8.2298E-03 -* -RFilter_m_mz_d6_m1_e102 598 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 587 595 597 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 600 577 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 600 601 2.7136E-08 -RFilter_m_mz_d6_m1_e201 600 601 8.2298E-03 -* -RFilter_m_mz_d6_m1_e202 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 595 1 600 1 -9.918374E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 602 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 604 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 602 606 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 604 607 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 610 611 1.8924E-08 -RFilter_m_d7_m1_e101 610 611 1.1813E-02 -* -RFilter_m_d7_m1_e102 611 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 606 1 610 1 9.883250E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 614 612 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 614 615 1.8924E-08 -RFilter_m_d7_m1_e201 614 615 1.1813E-02 -* -RFilter_m_d7_m1_e202 615 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 607 1 614 1 9.883250E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d7_m1_e1 612 1 616 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d7_m1_e2 608 1 617 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 612 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 608 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 620 602 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 620 621 1.8924E-08 -RFilter_m_pz_d7_m1_e101 620 621 1.1813E-02 -* -RFilter_m_pz_d7_m1_e102 621 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 616 618 620 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 623 606 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 623 624 1.8924E-08 -RFilter_m_pz_d7_m1_e201 623 624 1.1813E-02 -* -RFilter_m_pz_d7_m1_e202 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 618 1 623 1 -9.883250E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 627 604 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 627 628 1.8924E-08 -RFilter_m_mz_d7_m1_e101 627 628 1.1813E-02 -* -RFilter_m_mz_d7_m1_e102 628 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 617 625 627 1 1.976650E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 630 607 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 630 631 1.8924E-08 -RFilter_m_mz_d7_m1_e201 630 631 1.1813E-02 -* -RFilter_m_mz_d7_m1_e202 631 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 625 1 630 1 -9.883250E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 633 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 633 1 632 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 632 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 635 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 635 1 634 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 634 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 632 636 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 634 637 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 640 638 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 640 641 2.7136E-08 -RFilter_m_d8_m1_e101 640 641 8.2298E-03 -* -RFilter_m_d8_m1_e102 641 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 636 1 640 1 9.918374E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 644 642 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 644 645 2.7136E-08 -RFilter_m_d8_m1_e201 644 645 8.2298E-03 -* -RFilter_m_d8_m1_e202 645 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 637 1 644 1 9.918374E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d8_m1_e1 642 1 646 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d8_m1_e2 638 1 647 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 642 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 638 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 650 632 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 650 651 2.7136E-08 -RFilter_m_pz_d8_m1_e101 650 651 8.2298E-03 -* -RFilter_m_pz_d8_m1_e102 651 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 646 648 650 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 653 636 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 653 654 2.7136E-08 -RFilter_m_pz_d8_m1_e201 653 654 8.2298E-03 -* -RFilter_m_pz_d8_m1_e202 654 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 648 1 653 1 -9.918374E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 657 634 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 657 658 2.7136E-08 -RFilter_m_mz_d8_m1_e101 657 658 8.2298E-03 -* -RFilter_m_mz_d8_m1_e102 658 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 647 655 657 1 1.983675E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 660 637 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 660 661 2.7136E-08 -RFilter_m_mz_d8_m1_e201 660 661 8.2298E-03 -* -RFilter_m_mz_d8_m1_e202 661 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 655 1 660 1 -9.918374E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 666 -Vmeas_mode_decomp_d9_c2_e1 65 670 -Vmeas_mode_decomp_d9_c3_e1 66 674 -Vmeas_mode_decomp_d9_c4_e1 67 678 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 666 667 662 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 667 668 663 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 668 669 664 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 669 1 665 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 670 671 662 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 671 672 663 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 672 673 664 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 673 1 665 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 674 675 662 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 675 676 663 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 676 677 664 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 677 1 665 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 678 679 662 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 679 680 663 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 680 681 664 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 681 1 665 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 662 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 662 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 662 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 662 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 663 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 663 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 663 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 663 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 664 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 664 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 664 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 664 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 665 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 665 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 665 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 665 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 686 -Vmeas_mode_decomp_d9_c2_e2 247 690 -Vmeas_mode_decomp_d9_c3_e2 248 694 -Vmeas_mode_decomp_d9_c4_e2 249 698 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 686 687 682 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 687 688 683 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 688 689 684 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 689 1 685 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 690 691 682 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 691 692 683 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 692 693 684 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 693 1 685 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 694 695 682 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 695 696 683 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 696 697 684 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 697 1 685 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 698 699 682 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 699 700 683 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 700 701 684 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 701 1 685 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 682 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 682 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 682 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 682 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 683 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 683 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 683 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 683 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 684 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 684 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 684 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 684 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 685 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 685 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 685 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 685 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 662 710 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 682 711 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 714 712 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 714 715 2.3026E-08 -RFilter_m_d9_m1_e101 714 715 9.6704E-03 -* -RFilter_m_d9_m1_e102 715 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 710 702 714 1 9.904222E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 718 716 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 718 719 2.3026E-08 -RFilter_m_d9_m1_e201 718 719 9.6704E-03 -* -RFilter_m_d9_m1_e202 719 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 711 703 718 1 9.904222E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m1_e1 716 1 720 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m1_e2 712 1 721 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 716 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 712 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 724 662 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 724 725 2.3026E-08 -RFilter_m_pz_d9_m1_e101 724 725 9.6704E-03 -* -RFilter_m_pz_d9_m1_e102 725 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 720 722 724 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 727 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 727 728 2.3026E-08 -RFilter_m_pz_d9_m1_e201 727 728 9.6704E-03 -* -RFilter_m_pz_d9_m1_e202 728 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 722 1 727 1 -9.904222E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 731 682 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 731 732 2.3026E-08 -RFilter_m_mz_d9_m1_e101 731 732 9.6704E-03 -* -RFilter_m_mz_d9_m1_e102 732 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 721 729 731 1 1.980844E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 734 711 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 734 735 2.3026E-08 -RFilter_m_mz_d9_m1_e201 734 735 9.6704E-03 -* -RFilter_m_mz_d9_m1_e202 735 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 729 1 734 1 -9.904222E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 663 736 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 683 737 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 740 738 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 740 741 3.1648E-08 -RFilter_m_d9_m2_e101 740 741 7.1113E-03 -* -RFilter_m_d9_m2_e102 741 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 736 704 740 1 9.929389E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 744 742 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 744 745 3.1648E-08 -RFilter_m_d9_m2_e201 744 745 7.1113E-03 -* -RFilter_m_d9_m2_e202 745 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 737 705 744 1 9.929389E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m2_e1 742 1 746 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m2_e2 738 1 747 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 742 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 738 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 750 663 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 750 751 3.1648E-08 -RFilter_m_pz_d9_m2_e101 750 751 7.1113E-03 -* -RFilter_m_pz_d9_m2_e102 751 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 746 748 750 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 753 736 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 753 754 3.1648E-08 -RFilter_m_pz_d9_m2_e201 753 754 7.1113E-03 -* -RFilter_m_pz_d9_m2_e202 754 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 748 1 753 1 -9.929389E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 757 683 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 757 758 3.1648E-08 -RFilter_m_mz_d9_m2_e101 757 758 7.1113E-03 -* -RFilter_m_mz_d9_m2_e102 758 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 747 755 757 1 1.985878E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 760 737 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 760 761 3.1648E-08 -RFilter_m_mz_d9_m2_e201 760 761 7.1113E-03 -* -RFilter_m_mz_d9_m2_e202 761 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 755 1 760 1 -9.929389E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 664 762 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 684 763 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 766 764 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 766 767 3.5000E-08 -RFilter_m_d9_m3_e101 766 767 6.3646E-03 -* -RFilter_m_d9_m3_e102 767 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 762 706 766 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 770 768 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 770 771 3.5000E-08 -RFilter_m_d9_m3_e201 770 771 6.3646E-03 -* -RFilter_m_d9_m3_e202 771 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 763 707 770 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m3_e1 768 1 772 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m3_e2 764 1 773 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 768 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 764 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 776 664 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 776 777 3.5000E-08 -RFilter_m_pz_d9_m3_e101 776 777 6.3646E-03 -* -RFilter_m_pz_d9_m3_e102 777 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 772 774 776 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 779 762 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 779 780 3.5000E-08 -RFilter_m_pz_d9_m3_e201 779 780 6.3646E-03 -* -RFilter_m_pz_d9_m3_e202 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 774 1 779 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 783 684 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 783 784 3.5000E-08 -RFilter_m_mz_d9_m3_e101 783 784 6.3646E-03 -* -RFilter_m_mz_d9_m3_e102 784 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 773 781 783 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 786 763 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 786 787 3.5000E-08 -RFilter_m_mz_d9_m3_e201 786 787 6.3646E-03 -* -RFilter_m_mz_d9_m3_e202 787 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 781 1 786 1 -9.936757E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 665 788 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 685 789 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 792 790 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 792 793 3.5000E-08 -RFilter_m_d9_m4_e101 792 793 6.3646E-03 -* -RFilter_m_d9_m4_e102 793 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 788 708 792 1 9.936757E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 796 794 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 796 797 3.5000E-08 -RFilter_m_d9_m4_e201 796 797 6.3646E-03 -* -RFilter_m_d9_m4_e202 797 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 789 709 796 1 9.936757E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m4_e1 794 1 798 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m4_e2 790 1 799 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 794 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 790 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 802 665 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 802 803 3.5000E-08 -RFilter_m_pz_d9_m4_e101 802 803 6.3646E-03 -* -RFilter_m_pz_d9_m4_e102 803 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 798 800 802 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 805 788 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 805 806 3.5000E-08 -RFilter_m_pz_d9_m4_e201 805 806 6.3646E-03 -* -RFilter_m_pz_d9_m4_e202 806 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 800 1 805 1 -9.936757E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 809 685 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 809 810 3.5000E-08 -RFilter_m_mz_d9_m4_e101 809 810 6.3646E-03 -* -RFilter_m_mz_d9_m4_e102 810 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 799 807 809 1 1.987351E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 812 789 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 812 813 3.5000E-08 -RFilter_m_mz_d9_m4_e201 812 813 6.3646E-03 -* -RFilter_m_mz_d9_m4_e202 813 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 807 1 812 1 -9.936757E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 815 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 815 1 814 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 814 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 817 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 817 1 816 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 816 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 814 818 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 816 819 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 818 1 820 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 819 1 821 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d10_m1_e1 821 1 822 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay line for negative z propagation -* -T_mz_d10_m1_e2 820 1 823 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 821 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 820 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 822 824 814 1 2.000000E+00 -E_m_pz_d10_m1_e2 824 1 818 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 823 825 816 1 2.000000E+00 -E_m_mz_d10_m1_e2 825 1 819 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_1_vm_1 826 1 827 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_1_vm_1 828 1 829 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 827 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 829 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 826 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 828 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_1_vm_1 830 1 831 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_1_vm_1 832 1 833 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 831 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 833 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 830 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 832 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_1_vm_1 834 1 835 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_1_vm_1 836 1 837 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 835 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 837 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 834 1 720 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 836 1 721 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_2_vm_1 838 1 839 1 LEN= 1.000000E-01 -+ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_2_vm_1 840 1 841 1 LEN= 1.000000E-01 -+ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 839 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 841 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 838 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 840 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_2_vm_1 842 1 843 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_2_vm_1 844 1 845 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 843 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 845 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 842 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 844 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_2_vm_1 846 1 847 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_2_vm_1 848 1 849 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 847 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 849 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 846 1 746 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 848 1 747 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_3_vm_1 850 1 851 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_3_vm_1 852 1 853 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 851 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 853 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 850 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 852 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_3_vm_1 854 1 855 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_3_vm_1 856 1 857 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 855 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 857 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 854 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 856 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_3_vm_1 858 1 859 1 LEN= 1.000000E-01 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_3_vm_1 860 1 861 1 LEN= 1.000000E-01 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 859 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 861 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 858 1 772 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 860 1 773 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_4_vm_1 862 1 863 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_4_vm_1 864 1 865 1 LEN= 1.000000E-01 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 863 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 865 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 862 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 864 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_4_vm_1 866 1 867 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_4_vm_1 868 1 869 1 LEN= 1.000000E-01 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 867 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 869 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 866 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 868 1 799 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_4_vm_1 870 1 871 1 LEN= 1.000000E-01 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_4_vm_1 872 1 873 1 LEN= 1.000000E-01 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 871 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 873 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 870 1 798 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 872 1 799 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 874 1 721 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 875 874 829 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 876 1 720 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 877 876 827 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 878 875 835 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 879 878 831 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 880 877 837 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 881 880 833 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 882 879 747 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 883 882 841 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 884 881 746 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 885 884 839 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 886 883 847 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 887 886 843 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 888 885 849 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 889 888 845 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 890 887 773 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 891 890 853 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 892 889 772 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 893 892 851 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 894 891 859 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 895 894 855 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 896 893 861 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 897 896 857 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 898 895 799 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 899 898 865 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 900 897 798 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 901 900 863 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 902 899 871 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 903 902 867 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 904 901 873 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 905 904 869 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 903 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 905 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 907 905 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 907 908 2.7136E-08 -RFilter_ZT_s_ZT1_sm_4_vm_101 907 908 8.2298E-03 -* -RFilter_ZT_s_ZT1_sm_4_vm_102 908 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 454 1 907 1 2.973454E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 910 903 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 910 911 2.7136E-08 -RFilter_ZT_l_ZT1_sm_4_vm_101 910 911 8.2298E-03 -* -RFilter_ZT_l_ZT1_sm_4_vm_102 911 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 455 1 910 1 2.973454E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_1 912 1 913 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_1 914 1 915 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 913 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 915 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 912 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 914 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_1 916 1 917 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_1 918 1 919 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 917 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 919 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 916 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 918 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_1 920 1 921 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_1 922 1 923 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 921 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 923 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 920 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 922 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 924 1 823 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 925 924 915 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 926 1 822 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 927 926 913 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 928 925 921 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 929 928 917 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 930 927 923 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 931 930 919 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 929 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 931 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 933 931 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 933 934 2.1533E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 933 934 9.6704E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_102 934 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 935 931 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 935 1.5145E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 702 1 933 935 1.306453E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 937 929 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 937 938 2.1533E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 937 938 9.6704E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_102 938 1 5.0484E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 939 929 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 939 1.5145E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 703 1 937 939 1.306453E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_2 940 1 941 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_2 942 1 943 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 941 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 943 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 940 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 942 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_2 944 1 945 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_2 946 1 947 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 945 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 947 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 944 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 946 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_2 948 1 949 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_2 950 1 951 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 949 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 951 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 948 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 950 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 952 1 823 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 953 952 943 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 954 1 822 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 955 954 941 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 956 953 949 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 957 956 945 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 958 955 951 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 959 958 947 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 957 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 959 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 961 959 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 961 962 1.6005E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 961 962 7.1113E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_202 962 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 963 959 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 963 1.5107E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 704 1 961 963 1.309773E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 965 957 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 965 966 1.6005E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 965 966 7.1113E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_202 966 1 5.0356E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 967 957 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 967 1.5107E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 705 1 965 967 1.309773E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_3 968 1 969 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_3 970 1 971 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 969 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 971 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 968 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 970 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_3 972 1 973 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_3 974 1 975 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 973 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 975 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 972 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 974 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_3 976 1 977 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_3 978 1 979 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 977 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 979 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 976 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 978 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 980 1 823 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 981 980 971 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 982 1 822 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 983 982 969 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 984 981 977 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 985 984 973 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 986 983 979 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 987 986 975 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 985 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 987 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 989 987 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 989 990 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 989 990 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_302 990 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 991 987 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 991 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 706 1 989 991 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 993 985 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 993 994 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 993 994 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_302 994 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 995 985 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 995 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 707 1 993 995 1.310745E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_4 996 1 997 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_4 998 1 999 1 LEN= 1.000000E-01 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 997 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 999 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 996 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 998 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_4 1000 1 1001 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_4 1002 1 1003 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1001 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1003 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1000 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1002 1 823 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_4 1004 1 1005 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_4 1006 1 1007 1 LEN= 1.000000E-01 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1005 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1007 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1004 1 822 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1006 1 823 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1008 1 823 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1009 1008 999 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1010 1 822 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1011 1010 997 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1012 1009 1005 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1013 1012 1001 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1014 1011 1007 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1015 1014 1003 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1013 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1015 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1017 1015 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 1.4178E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1017 1018 6.3646E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_402 1018 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1019 1015 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1019 1.5095E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 708 1 1017 1019 1.310745E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1021 1013 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 1.4178E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1021 1022 6.3646E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_402 1022 1 5.0318E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1023 1013 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1023 1.5095E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 709 1 1021 1023 1.310745E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib deleted file mode 100644 index c3bf8d4..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_LTspice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-01 -Rdc_c2_e1 3 31 1.279876E-01 -Rdc_c3_e1 4 32 1.279876E-01 -Rdc_c4_e1 5 33 1.279876E-01 -Rdc_c5_e1 6 34 1.279876E-01 -Rdc_c6_e1 7 35 1.279876E-01 -Rdc_c7_e1 8 36 1.279876E-01 -Rdc_c8_e1 9 37 1.279876E-01 -Rdc_c9_e1 10 38 3.350000E-02 -Rdc_c10_e1 11 39 3.350000E-02 -Rdc_c11_e1 12 40 3.350000E-02 -Rdc_c12_e1 13 41 3.350000E-02 -Rdc_c13_e1 14 42 7.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-01 -Rdc_c2_e2 17 44 1.279876E-01 -Rdc_c3_e2 18 45 1.279876E-01 -Rdc_c4_e2 19 46 1.279876E-01 -Rdc_c5_e2 20 47 1.279876E-01 -Rdc_c6_e2 21 48 1.279876E-01 -Rdc_c7_e2 22 49 1.279876E-01 -Rdc_c8_e2 23 50 1.279876E-01 -Rdc_c9_e2 24 51 3.350000E-02 -Rdc_c10_e2 25 52 3.350000E-02 -Rdc_c11_e2 26 53 3.350000E-02 -Rdc_c12_e2 27 54 3.350000E-02 -Rdc_c13_e2 28 55 7.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.8568E-10 -RFilter_m_d1_m1_e101 428 429 1.2368E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6257E-08 -RFilter_m_d1_m1_e102 429 430 3.1391E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.8568E-10 -RFilter_m_d1_m1_e201 433 434 1.2368E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6257E-08 -RFilter_m_d1_m1_e202 434 435 3.1391E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.5880E-10 -RFilter_m_d2_m1_e101 466 467 1.2988E-01 -* -CFilter_m_d2_m1_e102 467 468 3.4396E-08 -RFilter_m_d2_m1_e102 467 468 3.3035E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.5880E-10 -RFilter_m_d2_m1_e201 471 472 1.2988E-01 -* -CFilter_m_d2_m1_e202 472 473 3.4396E-08 -RFilter_m_d2_m1_e202 472 473 3.3035E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.8944E-10 -RFilter_m_d3_m1_e101 502 503 1.9122E-01 -* -CFilter_m_d3_m1_e102 503 504 2.2742E-08 -RFilter_m_d3_m1_e102 503 504 5.0303E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.8944E-10 -RFilter_m_d3_m1_e201 507 508 1.9122E-01 -* -CFilter_m_d3_m1_e202 508 509 2.2742E-08 -RFilter_m_d3_m1_e202 508 509 5.0303E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 -RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 -RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 -RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 -RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.5880E-10 -RFilter_m_d4_m1_e101 538 539 1.2988E-01 -* -CFilter_m_d4_m1_e102 539 540 3.4396E-08 -RFilter_m_d4_m1_e102 539 540 3.3035E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.5880E-10 -RFilter_m_d4_m1_e201 543 544 1.2988E-01 -* -CFilter_m_d4_m1_e202 544 545 3.4396E-08 -RFilter_m_d4_m1_e202 544 545 3.3035E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.8568E-10 -RFilter_m_d5_m1_e101 574 575 1.2368E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6257E-08 -RFilter_m_d5_m1_e102 575 576 3.1391E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.8568E-10 -RFilter_m_d5_m1_e201 579 580 1.2368E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6257E-08 -RFilter_m_d5_m1_e202 580 581 3.1391E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.5880E-10 -RFilter_m_d6_m1_e101 610 611 1.2988E-01 -* -CFilter_m_d6_m1_e102 611 612 3.4396E-08 -RFilter_m_d6_m1_e102 611 612 3.3035E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.5880E-10 -RFilter_m_d6_m1_e201 615 616 1.2988E-01 -* -CFilter_m_d6_m1_e202 616 617 3.4396E-08 -RFilter_m_d6_m1_e202 616 617 3.3035E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.8944E-10 -RFilter_m_d7_m1_e101 646 647 1.9122E-01 -* -CFilter_m_d7_m1_e102 647 648 2.2742E-08 -RFilter_m_d7_m1_e102 647 648 5.0303E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.8944E-10 -RFilter_m_d7_m1_e201 651 652 1.9122E-01 -* -CFilter_m_d7_m1_e202 652 653 2.2742E-08 -RFilter_m_d7_m1_e202 652 653 5.0303E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 -RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 -RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 -RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 -RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.5880E-10 -RFilter_m_d8_m1_e101 682 683 1.2988E-01 -* -CFilter_m_d8_m1_e102 683 684 3.4396E-08 -RFilter_m_d8_m1_e102 683 684 3.3035E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.5880E-10 -RFilter_m_d8_m1_e201 687 688 1.2988E-01 -* -CFilter_m_d8_m1_e202 688 689 3.4396E-08 -RFilter_m_d8_m1_e202 688 689 3.3035E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 4.7432E-10 -RFilter_m_d9_m1_e101 762 763 1.5432E-01 -* -CFilter_m_d9_m1_e102 763 764 2.8566E-08 -RFilter_m_d9_m1_e102 763 764 3.9632E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 4.7432E-10 -RFilter_m_d9_m1_e201 767 768 1.5432E-01 -* -CFilter_m_d9_m1_e202 768 769 2.8566E-08 -RFilter_m_d9_m1_e202 768 769 3.9632E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 -RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 -* -CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 -RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 -RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 -* -CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 -RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 -RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 -* -CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 -RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 -RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 -* -CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 -RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 6.5092E-10 -RFilter_m_d9_m2_e101 794 795 1.1110E-01 -* -CFilter_m_d9_m2_e102 795 796 4.0757E-08 -RFilter_m_d9_m2_e102 795 796 2.8236E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 6.5092E-10 -RFilter_m_d9_m2_e201 799 800 1.1110E-01 -* -CFilter_m_d9_m2_e202 800 801 4.0757E-08 -RFilter_m_d9_m2_e202 800 801 2.8236E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 -RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 -* -CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 -RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 -RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 -* -CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 -RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 -RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 -* -CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 -RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 -RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 -* -CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 -RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 7.2089E-10 -RFilter_m_d9_m3_e101 826 827 9.9202E-02 -* -CFilter_m_d9_m3_e102 827 828 4.5618E-08 -RFilter_m_d9_m3_e102 827 828 2.4727E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 7.2089E-10 -RFilter_m_d9_m3_e201 831 832 9.9202E-02 -* -CFilter_m_d9_m3_e202 832 833 4.5618E-08 -RFilter_m_d9_m3_e202 832 833 2.4727E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 -RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 -RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 -RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 -RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 -RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 -RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 -RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 -RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 7.2089E-10 -RFilter_m_d9_m4_e101 858 859 9.9202E-02 -* -CFilter_m_d9_m4_e102 859 860 4.5618E-08 -RFilter_m_d9_m4_e102 859 860 2.4727E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 7.2089E-10 -RFilter_m_d9_m4_e201 863 864 9.9202E-02 -* -CFilter_m_d9_m4_e202 864 865 4.5618E-08 -RFilter_m_d9_m4_e202 864 865 2.4727E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 -RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 -RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 -RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 -RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 -RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 -RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 -RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 -RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib deleted file mode 100644 index 092bbc8..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-01 -Rdc_c2_e1 3 31 1.279876E-01 -Rdc_c3_e1 4 32 1.279876E-01 -Rdc_c4_e1 5 33 1.279876E-01 -Rdc_c5_e1 6 34 1.279876E-01 -Rdc_c6_e1 7 35 1.279876E-01 -Rdc_c7_e1 8 36 1.279876E-01 -Rdc_c8_e1 9 37 1.279876E-01 -Rdc_c9_e1 10 38 3.350000E-02 -Rdc_c10_e1 11 39 3.350000E-02 -Rdc_c11_e1 12 40 3.350000E-02 -Rdc_c12_e1 13 41 3.350000E-02 -Rdc_c13_e1 14 42 7.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-01 -Rdc_c2_e2 17 44 1.279876E-01 -Rdc_c3_e2 18 45 1.279876E-01 -Rdc_c4_e2 19 46 1.279876E-01 -Rdc_c5_e2 20 47 1.279876E-01 -Rdc_c6_e2 21 48 1.279876E-01 -Rdc_c7_e2 22 49 1.279876E-01 -Rdc_c8_e2 23 50 1.279876E-01 -Rdc_c9_e2 24 51 3.350000E-02 -Rdc_c10_e2 25 52 3.350000E-02 -Rdc_c11_e2 26 53 3.350000E-02 -Rdc_c12_e2 27 54 3.350000E-02 -Rdc_c13_e2 28 55 7.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.8568E-10 -RFilter_m_d1_m1_e101 428 429 1.2368E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6257E-08 -RFilter_m_d1_m1_e102 429 430 3.1391E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.8568E-10 -RFilter_m_d1_m1_e201 433 434 1.2368E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6257E-08 -RFilter_m_d1_m1_e202 434 435 3.1391E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.5880E-10 -RFilter_m_d2_m1_e101 466 467 1.2988E-01 -* -CFilter_m_d2_m1_e102 467 468 3.4396E-08 -RFilter_m_d2_m1_e102 467 468 3.3035E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.5880E-10 -RFilter_m_d2_m1_e201 471 472 1.2988E-01 -* -CFilter_m_d2_m1_e202 472 473 3.4396E-08 -RFilter_m_d2_m1_e202 472 473 3.3035E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.8944E-10 -RFilter_m_d3_m1_e101 502 503 1.9122E-01 -* -CFilter_m_d3_m1_e102 503 504 2.2742E-08 -RFilter_m_d3_m1_e102 503 504 5.0303E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.8944E-10 -RFilter_m_d3_m1_e201 507 508 1.9122E-01 -* -CFilter_m_d3_m1_e202 508 509 2.2742E-08 -RFilter_m_d3_m1_e202 508 509 5.0303E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 -RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 -RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 -RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 -RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.5880E-10 -RFilter_m_d4_m1_e101 538 539 1.2988E-01 -* -CFilter_m_d4_m1_e102 539 540 3.4396E-08 -RFilter_m_d4_m1_e102 539 540 3.3035E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.5880E-10 -RFilter_m_d4_m1_e201 543 544 1.2988E-01 -* -CFilter_m_d4_m1_e202 544 545 3.4396E-08 -RFilter_m_d4_m1_e202 544 545 3.3035E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.8568E-10 -RFilter_m_d5_m1_e101 574 575 1.2368E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6257E-08 -RFilter_m_d5_m1_e102 575 576 3.1391E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.8568E-10 -RFilter_m_d5_m1_e201 579 580 1.2368E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6257E-08 -RFilter_m_d5_m1_e202 580 581 3.1391E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.5880E-10 -RFilter_m_d6_m1_e101 610 611 1.2988E-01 -* -CFilter_m_d6_m1_e102 611 612 3.4396E-08 -RFilter_m_d6_m1_e102 611 612 3.3035E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.5880E-10 -RFilter_m_d6_m1_e201 615 616 1.2988E-01 -* -CFilter_m_d6_m1_e202 616 617 3.4396E-08 -RFilter_m_d6_m1_e202 616 617 3.3035E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.8944E-10 -RFilter_m_d7_m1_e101 646 647 1.9122E-01 -* -CFilter_m_d7_m1_e102 647 648 2.2742E-08 -RFilter_m_d7_m1_e102 647 648 5.0303E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.8944E-10 -RFilter_m_d7_m1_e201 651 652 1.9122E-01 -* -CFilter_m_d7_m1_e202 652 653 2.2742E-08 -RFilter_m_d7_m1_e202 652 653 5.0303E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.853248E-07 C= 3.985931E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 -RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 -RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 -RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 -RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.5880E-10 -RFilter_m_d8_m1_e101 682 683 1.2988E-01 -* -CFilter_m_d8_m1_e102 683 684 3.4396E-08 -RFilter_m_d8_m1_e102 683 684 3.3035E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.5880E-10 -RFilter_m_d8_m1_e201 687 688 1.2988E-01 -* -CFilter_m_d8_m1_e202 688 689 3.4396E-08 -RFilter_m_d8_m1_e202 688 689 3.3035E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.336070E-07 C= 1.102213E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 4.7432E-10 -RFilter_m_d9_m1_e101 762 763 1.5432E-01 -* -CFilter_m_d9_m1_e102 763 764 2.8566E-08 -RFilter_m_d9_m1_e102 763 764 3.9632E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 4.7432E-10 -RFilter_m_d9_m1_e201 767 768 1.5432E-01 -* -CFilter_m_d9_m1_e202 768 769 2.8566E-08 -RFilter_m_d9_m1_e202 768 769 3.9632E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 -RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 -* -CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 -RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 -RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 -* -CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 -RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 -RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 -* -CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 -RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 -RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 -* -CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 -RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 6.5092E-10 -RFilter_m_d9_m2_e101 794 795 1.1110E-01 -* -CFilter_m_d9_m2_e102 795 796 4.0757E-08 -RFilter_m_d9_m2_e102 795 796 2.8236E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 6.5092E-10 -RFilter_m_d9_m2_e201 799 800 1.1110E-01 -* -CFilter_m_d9_m2_e202 800 801 4.0757E-08 -RFilter_m_d9_m2_e202 800 801 2.8236E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 -RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 -* -CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 -RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 -RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 -* -CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 -RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 -RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 -* -CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 -RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 -RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 -* -CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 -RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 7.2089E-10 -RFilter_m_d9_m3_e101 826 827 9.9202E-02 -* -CFilter_m_d9_m3_e102 827 828 4.5618E-08 -RFilter_m_d9_m3_e102 827 828 2.4727E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 7.2089E-10 -RFilter_m_d9_m3_e201 831 832 9.9202E-02 -* -CFilter_m_d9_m3_e202 832 833 4.5618E-08 -RFilter_m_d9_m3_e202 832 833 2.4727E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 -RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 -RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 -RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 -RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 -RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 -RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 -RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 -RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 7.2089E-10 -RFilter_m_d9_m4_e101 858 859 9.9202E-02 -* -CFilter_m_d9_m4_e102 859 860 4.5618E-08 -RFilter_m_d9_m4_e102 859 860 2.4727E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 7.2089E-10 -RFilter_m_d9_m4_e201 863 864 9.9202E-02 -* -CFilter_m_d9_m4_e202 864 865 4.5618E-08 -RFilter_m_d9_m4_e202 864 865 2.4727E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 -RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 -RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 -RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 -RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 -RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 -RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 -RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 -RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 6.925957E-08 C= 7.429128E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.220700E-08 C= 3.454684E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.705257E-08 C= 3.974444E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 2.352065E-07 C= 2.187602E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.093754E-07 C= 1.017276E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.258311E-07 C= 1.170326E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.050585E-07 C= 4.897634E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 4.885418E-08 C= 2.277492E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 5.620433E-08 C= 2.620142E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.942319E-07 C= 6.454667E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.482968E-07 C= 3.238312E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.459351E-07 C= 3.216355E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib deleted file mode 100644 index 978e380..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_PSpice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.279876E-01 -Rdc_c2_e1 3 31 1.279876E-01 -Rdc_c3_e1 4 32 1.279876E-01 -Rdc_c4_e1 5 33 1.279876E-01 -Rdc_c5_e1 6 34 1.279876E-01 -Rdc_c6_e1 7 35 1.279876E-01 -Rdc_c7_e1 8 36 1.279876E-01 -Rdc_c8_e1 9 37 1.279876E-01 -Rdc_c9_e1 10 38 3.350000E-02 -Rdc_c10_e1 11 39 3.350000E-02 -Rdc_c11_e1 12 40 3.350000E-02 -Rdc_c12_e1 13 41 3.350000E-02 -Rdc_c13_e1 14 42 7.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.279876E-01 -Rdc_c2_e2 17 44 1.279876E-01 -Rdc_c3_e2 18 45 1.279876E-01 -Rdc_c4_e2 19 46 1.279876E-01 -Rdc_c5_e2 20 47 1.279876E-01 -Rdc_c6_e2 21 48 1.279876E-01 -Rdc_c7_e2 22 49 1.279876E-01 -Rdc_c8_e2 23 50 1.279876E-01 -Rdc_c9_e2 24 51 3.350000E-02 -Rdc_c10_e2 25 52 3.350000E-02 -Rdc_c11_e2 26 53 3.350000E-02 -Rdc_c12_e2 27 54 3.350000E-02 -Rdc_c13_e2 28 55 7.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.8568E-10 -RFilter_m_d1_m1_e101 428 429 1.2368E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6257E-08 -RFilter_m_d1_m1_e102 429 430 3.1391E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.8568E-10 -RFilter_m_d1_m1_e201 433 434 1.2368E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6257E-08 -RFilter_m_d1_m1_e202 434 435 3.1391E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.8568E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2368E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6257E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1391E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.8568E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2368E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6257E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1391E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.8568E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2368E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6257E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1391E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.8568E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2368E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6257E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1391E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.657504E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.5880E-10 -RFilter_m_d2_m1_e101 466 467 1.2988E-01 -* -CFilter_m_d2_m1_e102 467 468 3.4396E-08 -RFilter_m_d2_m1_e102 467 468 3.3035E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.5880E-10 -RFilter_m_d2_m1_e201 471 472 1.2988E-01 -* -CFilter_m_d2_m1_e202 472 473 3.4396E-08 -RFilter_m_d2_m1_e202 472 473 3.3035E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.5880E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2988E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.4396E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.3035E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.5880E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2988E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.4396E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.3035E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.5880E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2988E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.4396E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.3035E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.5880E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2988E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.4396E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.3035E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.599073E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.8944E-10 -RFilter_m_d3_m1_e101 502 503 1.9122E-01 -* -CFilter_m_d3_m1_e102 503 504 2.2742E-08 -RFilter_m_d3_m1_e102 503 504 5.0303E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.8944E-10 -RFilter_m_d3_m1_e201 507 508 1.9122E-01 -* -CFilter_m_d3_m1_e202 508 509 2.2742E-08 -RFilter_m_d3_m1_e202 508 509 5.0303E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.8944E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.9122E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.2742E-08 -RFilter_m_pz_d3_m1_e102 515 516 5.0303E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.8944E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.9122E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.2742E-08 -RFilter_m_pz_d3_m1_e202 519 520 5.0303E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.8944E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.9122E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.2742E-08 -RFilter_m_mz_d3_m1_e102 524 525 5.0303E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.8944E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.9122E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.2742E-08 -RFilter_m_mz_d3_m1_e202 528 529 5.0303E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.054648E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.5880E-10 -RFilter_m_d4_m1_e101 538 539 1.2988E-01 -* -CFilter_m_d4_m1_e102 539 540 3.4396E-08 -RFilter_m_d4_m1_e102 539 540 3.3035E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.5880E-10 -RFilter_m_d4_m1_e201 543 544 1.2988E-01 -* -CFilter_m_d4_m1_e202 544 545 3.4396E-08 -RFilter_m_d4_m1_e202 544 545 3.3035E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.5880E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2988E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.4396E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.3035E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.5880E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2988E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.4396E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.3035E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.5880E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2988E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.4396E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.3035E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.5880E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2988E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.4396E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.3035E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.599073E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.8568E-10 -RFilter_m_d5_m1_e101 574 575 1.2368E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6257E-08 -RFilter_m_d5_m1_e102 575 576 3.1391E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.657504E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.8568E-10 -RFilter_m_d5_m1_e201 579 580 1.2368E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6257E-08 -RFilter_m_d5_m1_e202 580 581 3.1391E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.657504E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.8568E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2368E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6257E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1391E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.8568E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2368E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6257E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1391E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.657504E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.8568E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2368E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6257E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1391E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.731501E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.8568E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2368E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6257E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1391E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.657504E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.5880E-10 -RFilter_m_d6_m1_e101 610 611 1.2988E-01 -* -CFilter_m_d6_m1_e102 611 612 3.4396E-08 -RFilter_m_d6_m1_e102 611 612 3.3035E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.5880E-10 -RFilter_m_d6_m1_e201 615 616 1.2988E-01 -* -CFilter_m_d6_m1_e202 616 617 3.4396E-08 -RFilter_m_d6_m1_e202 616 617 3.3035E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.5880E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2988E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.4396E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.3035E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.5880E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2988E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.4396E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.3035E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.5880E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2988E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.4396E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.3035E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.5880E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2988E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.4396E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.3035E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.599073E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.832152E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.832152E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.8944E-10 -RFilter_m_d7_m1_e101 646 647 1.9122E-01 -* -CFilter_m_d7_m1_e102 647 648 2.2742E-08 -RFilter_m_d7_m1_e102 647 648 5.0303E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.054648E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.8944E-10 -RFilter_m_d7_m1_e201 651 652 1.9122E-01 -* -CFilter_m_d7_m1_e202 652 653 2.2742E-08 -RFilter_m_d7_m1_e202 652 653 5.0303E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.054648E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Delay line for negative z propagation -* -T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.853248E-07 G=0.0 C= 3.985931E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.832152E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.832152E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.8944E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.9122E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.2742E-08 -RFilter_m_pz_d7_m1_e102 659 660 5.0303E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.8944E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.9122E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.2742E-08 -RFilter_m_pz_d7_m1_e202 663 664 5.0303E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.054648E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.8944E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.9122E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.2742E-08 -RFilter_m_mz_d7_m1_e102 668 669 5.0303E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.610930E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.8944E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.9122E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.2742E-08 -RFilter_m_mz_d7_m1_e202 672 673 5.0303E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.054648E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.481624E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.481624E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.5880E-10 -RFilter_m_d8_m1_e101 682 683 1.2988E-01 -* -CFilter_m_d8_m1_e102 683 684 3.4396E-08 -RFilter_m_d8_m1_e102 683 684 3.3035E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.599073E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.5880E-10 -RFilter_m_d8_m1_e201 687 688 1.2988E-01 -* -CFilter_m_d8_m1_e202 688 689 3.4396E-08 -RFilter_m_d8_m1_e202 688 689 3.3035E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.599073E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Delay line for negative z propagation -* -T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.336070E-07 G=0.0 C= 1.102213E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.481624E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.481624E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.5880E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2988E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.4396E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.3035E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.5880E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2988E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.4396E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.3035E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.599073E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.5880E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2988E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.4396E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.3035E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.719815E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.5880E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2988E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.4396E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.3035E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.599073E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -4.64965533E-02 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00010103E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -4.99996893E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -4.64966967E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 7.05576610E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 4.99989907E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -5.00003060E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 7.05576257E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 4.64967526E-02 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00010318E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 -4.99997094E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 4.64966092E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 -7.05576197E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 4.99989673E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 -5.00002953E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -7.05576550E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -4.64965533E-02 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00010103E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 4.99989907E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00010318E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 4.99989673E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -4.99996893E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -5.00003060E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 -4.99997094E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 -5.00002953E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -4.64966967E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 7.05576257E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 4.64966092E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -7.05576550E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 7.05576610E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 4.64967526E-02 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 -7.05576197E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -4.64965533E-02 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 9.655416E+00 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 9.655416E+00 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 4.7432E-10 -RFilter_m_d9_m1_e101 762 763 1.5432E-01 -* -CFilter_m_d9_m1_e102 763 764 2.8566E-08 -RFilter_m_d9_m1_e102 763 764 3.9632E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 8.375578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 4.7432E-10 -RFilter_m_d9_m1_e201 767 768 1.5432E-01 -* -CFilter_m_d9_m1_e202 768 769 2.8566E-08 -RFilter_m_d9_m1_e202 768 769 3.9632E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 8.375578E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 9.655416E+00 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 9.655416E+00 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 4.7432E-10 -RFilter_m_pz_d9_m1_e101 774 775 1.5432E-01 -* -CFilter_m_pz_d9_m1_e102 775 776 2.8566E-08 -RFilter_m_pz_d9_m1_e102 775 776 3.9632E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 4.7432E-10 -RFilter_m_pz_d9_m1_e201 778 779 1.5432E-01 -* -CFilter_m_pz_d9_m1_e202 779 780 2.8566E-08 -RFilter_m_pz_d9_m1_e202 779 780 3.9632E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -8.375578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 4.7432E-10 -RFilter_m_mz_d9_m1_e101 783 784 1.5432E-01 -* -CFilter_m_mz_d9_m1_e102 784 785 2.8566E-08 -RFilter_m_mz_d9_m1_e102 784 785 3.9632E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.675116E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 4.7432E-10 -RFilter_m_mz_d9_m1_e201 787 788 1.5432E-01 -* -CFilter_m_mz_d9_m1_e202 788 789 2.8566E-08 -RFilter_m_mz_d9_m1_e202 788 789 3.9632E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -8.375578E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 3.278993E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 3.278993E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 6.5092E-10 -RFilter_m_d9_m2_e101 794 795 1.1110E-01 -* -CFilter_m_d9_m2_e102 795 796 4.0757E-08 -RFilter_m_d9_m2_e102 795 796 2.8236E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 8.777013E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 6.5092E-10 -RFilter_m_d9_m2_e201 799 800 1.1110E-01 -* -CFilter_m_d9_m2_e202 800 801 4.0757E-08 -RFilter_m_d9_m2_e202 800 801 2.8236E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 8.777013E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 3.278993E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 3.278993E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 6.5092E-10 -RFilter_m_pz_d9_m2_e101 806 807 1.1110E-01 -* -CFilter_m_pz_d9_m2_e102 807 808 4.0757E-08 -RFilter_m_pz_d9_m2_e102 807 808 2.8236E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 6.5092E-10 -RFilter_m_pz_d9_m2_e201 810 811 1.1110E-01 -* -CFilter_m_pz_d9_m2_e202 811 812 4.0757E-08 -RFilter_m_pz_d9_m2_e202 811 812 2.8236E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -8.777013E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 6.5092E-10 -RFilter_m_mz_d9_m2_e101 815 816 1.1110E-01 -* -CFilter_m_mz_d9_m2_e102 816 817 4.0757E-08 -RFilter_m_mz_d9_m2_e102 816 817 2.8236E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.755403E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 6.5092E-10 -RFilter_m_mz_d9_m2_e201 819 820 1.1110E-01 -* -CFilter_m_mz_d9_m2_e202 820 821 4.0757E-08 -RFilter_m_mz_d9_m2_e202 820 821 2.8236E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -8.777013E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 7.2089E-10 -RFilter_m_d9_m3_e101 826 827 9.9202E-02 -* -CFilter_m_d9_m3_e102 827 828 4.5618E-08 -RFilter_m_d9_m3_e102 827 828 2.4727E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 7.2089E-10 -RFilter_m_d9_m3_e201 831 832 9.9202E-02 -* -CFilter_m_d9_m3_e202 832 833 4.5618E-08 -RFilter_m_d9_m3_e202 832 833 2.4727E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 7.2089E-10 -RFilter_m_pz_d9_m3_e101 838 839 9.9202E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 4.5618E-08 -RFilter_m_pz_d9_m3_e102 839 840 2.4727E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 7.2089E-10 -RFilter_m_pz_d9_m3_e201 842 843 9.9202E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 4.5618E-08 -RFilter_m_pz_d9_m3_e202 843 844 2.4727E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 7.2089E-10 -RFilter_m_mz_d9_m3_e101 847 848 9.9202E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 4.5618E-08 -RFilter_m_mz_d9_m3_e102 848 849 2.4727E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 7.2089E-10 -RFilter_m_mz_d9_m3_e201 851 852 9.9202E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 4.5618E-08 -RFilter_m_mz_d9_m3_e202 852 853 2.4727E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -8.897364E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.464612E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.464612E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 7.2089E-10 -RFilter_m_d9_m4_e101 858 859 9.9202E-02 -* -CFilter_m_d9_m4_e102 859 860 4.5618E-08 -RFilter_m_d9_m4_e102 859 860 2.4727E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 8.897364E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 7.2089E-10 -RFilter_m_d9_m4_e201 863 864 9.9202E-02 -* -CFilter_m_d9_m4_e202 864 865 4.5618E-08 -RFilter_m_d9_m4_e202 864 865 2.4727E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 8.897364E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.464612E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.464612E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 7.2089E-10 -RFilter_m_pz_d9_m4_e101 870 871 9.9202E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 4.5618E-08 -RFilter_m_pz_d9_m4_e102 871 872 2.4727E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 7.2089E-10 -RFilter_m_pz_d9_m4_e201 874 875 9.9202E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 4.5618E-08 -RFilter_m_pz_d9_m4_e202 875 876 2.4727E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -8.897364E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 7.2089E-10 -RFilter_m_mz_d9_m4_e101 879 880 9.9202E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 4.5618E-08 -RFilter_m_mz_d9_m4_e102 880 881 2.4727E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.779473E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 7.2089E-10 -RFilter_m_mz_d9_m4_e201 883 884 9.9202E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 4.5618E-08 -RFilter_m_mz_d9_m4_e202 884 885 2.4727E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -8.897364E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 1.037087E+02 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 1.037087E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay line for negative z propagation -* -T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 1.037087E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 1.037087E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.925957E-08 G=0.0 C= 7.429128E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.965542E+01 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.220700E-08 G=0.0 C= 3.454684E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.965542E+01 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.705257E-08 G=0.0 C= 3.974444E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.965542E+01 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.965542E+01 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.352065E-07 G=0.0 C= 2.187602E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.327899E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.093754E-07 G=0.0 C= 1.017276E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.327899E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.258311E-07 G=0.0 C= 1.170326E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.327899E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.327899E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.050585E-07 G=0.0 C= 4.897634E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.146461E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.885418E-08 G=0.0 C= 2.277492E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.146461E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.620433E-08 G=0.0 C= 2.620142E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.146461E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.146461E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.120404E-01 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.120404E-01 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.172098E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.172098E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.172098E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.354536E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.354536E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 0.506752E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 -0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 0.506752E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 -0.506752E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.738141E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.738141E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.105505E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.105505E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.105505E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.112011E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.112011E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 -0.160102E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 -0.160102E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 0.160102E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 5.5880E-10 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2988E-01 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.4396E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.3035E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 2.577937E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 5.5880E-10 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.2988E-01 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.4396E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 3.3035E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 2.577937E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.288912E-07 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.288912E-07 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 -0.849295E-05 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 -0.849295E-05 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 0.849295E-05 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.1295E-11 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 1.5432E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 4.4868E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 3.9632E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.7909E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.104812E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.1295E-11 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 1.5432E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 4.4868E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 3.9632E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.9697E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.7909E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.104812E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 -0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 0.480479E-02 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 -0.480479E-02 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.141243E+01 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.141243E+01 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.141243E+01 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 8.0350E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 1.1110E-01 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 3.2494E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 2.8236E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.7090E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.157764E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 8.0350E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 1.1110E-01 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 3.2494E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 2.8236E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.6967E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.7090E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.157764E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.407816E-09 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.407816E-09 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 -0.119883E-06 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 -0.119883E-06 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 0.119883E-06 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.173640E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.942319E-07 G=0.0 C= 6.454667E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.103709E+03 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.482968E-07 G=0.0 C= 3.238312E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.103709E+03 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.459351E-07 G=0.0 C= 3.216355E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.103709E+03 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.103709E+03 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.657716E-09 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.657716E-09 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 0.193344E-06 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 -0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 0.193344E-06 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 -0.193344E-06 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 7.0943E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 9.9202E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.7891E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 2.4727E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6859E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.173640E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 7.0943E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 9.9202E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.7891E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 2.4727E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.6196E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6859E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.173640E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/README b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/README deleted file mode 100644 index 2b1e207..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/README +++ /dev/null @@ -1 +0,0 @@ -directory for Spice cable bundle models (.lib files) diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec deleted file mode 100644 index 2ce1991..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib deleted file mode 100644 index 9813d01..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 7.945587E-02 -Rdc_c2_e1 3 31 7.945587E-02 -Rdc_c3_e1 4 32 7.945587E-02 -Rdc_c4_e1 5 33 7.945587E-02 -Rdc_c5_e1 6 34 7.945587E-02 -Rdc_c6_e1 7 35 7.945587E-02 -Rdc_c7_e1 8 36 7.945587E-02 -Rdc_c8_e1 9 37 7.945587E-02 -Rdc_c9_e1 10 38 2.050000E-02 -Rdc_c10_e1 11 39 2.050000E-02 -Rdc_c11_e1 12 40 2.050000E-02 -Rdc_c12_e1 13 41 2.050000E-02 -Rdc_c13_e1 14 42 6.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 7.945587E-02 -Rdc_c2_e2 17 44 7.945587E-02 -Rdc_c3_e2 18 45 7.945587E-02 -Rdc_c4_e2 19 46 7.945587E-02 -Rdc_c5_e2 20 47 7.945587E-02 -Rdc_c6_e2 21 48 7.945587E-02 -Rdc_c7_e2 22 49 7.945587E-02 -Rdc_c8_e2 23 50 7.945587E-02 -Rdc_c9_e2 24 51 2.050000E-02 -Rdc_c10_e2 25 52 2.050000E-02 -Rdc_c11_e2 26 53 2.050000E-02 -Rdc_c12_e2 27 54 2.050000E-02 -Rdc_c13_e2 28 55 6.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 7.6911E-10 -RFilter_m_d1_m1_e101 428 429 9.3348E-02 -* -CFilter_m_d1_m1_e102 429 430 4.8963E-08 -RFilter_m_d1_m1_e102 429 430 2.3509E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 7.6911E-10 -RFilter_m_d1_m1_e201 433 434 9.3348E-02 -* -CFilter_m_d1_m1_e202 434 435 4.8963E-08 -RFilter_m_d1_m1_e202 434 435 2.3509E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 -RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 -* -CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 -RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 -RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 -* -CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 -RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 -RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 -* -CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 -RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 -RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 -* -CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 -RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 1.0193E-09 -RFilter_m_d2_m1_e101 466 467 6.9612E-02 -* -CFilter_m_d2_m1_e102 467 468 6.6365E-08 -RFilter_m_d2_m1_e102 467 468 1.7250E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 1.0193E-09 -RFilter_m_d2_m1_e201 471 472 6.9612E-02 -* -CFilter_m_d2_m1_e202 472 473 6.6365E-08 -RFilter_m_d2_m1_e202 472 473 1.7250E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 -RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 -* -CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 -RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 -RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 -* -CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 -RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 -RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 -* -CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 -RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 -RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 -* -CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 -RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 5.1198E-10 -RFilter_m_d3_m1_e101 502 503 1.4326E-01 -* -CFilter_m_d3_m1_e102 503 504 3.1151E-08 -RFilter_m_d3_m1_e102 503 504 3.7091E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 5.1198E-10 -RFilter_m_d3_m1_e201 507 508 1.4326E-01 -* -CFilter_m_d3_m1_e202 508 509 3.1151E-08 -RFilter_m_d3_m1_e202 508 509 3.7091E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 -RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 -RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 -RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 -RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 1.0193E-09 -RFilter_m_d4_m1_e101 538 539 6.9612E-02 -* -CFilter_m_d4_m1_e102 539 540 6.6365E-08 -RFilter_m_d4_m1_e102 539 540 1.7250E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 1.0193E-09 -RFilter_m_d4_m1_e201 543 544 6.9612E-02 -* -CFilter_m_d4_m1_e202 544 545 6.6365E-08 -RFilter_m_d4_m1_e202 544 545 1.7250E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 -RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 -* -CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 -RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 -RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 -* -CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 -RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 -RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 -* -CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 -RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 -RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 -* -CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 -RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 7.6911E-10 -RFilter_m_d5_m1_e101 574 575 9.3348E-02 -* -CFilter_m_d5_m1_e102 575 576 4.8963E-08 -RFilter_m_d5_m1_e102 575 576 2.3509E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 7.6911E-10 -RFilter_m_d5_m1_e201 579 580 9.3348E-02 -* -CFilter_m_d5_m1_e202 580 581 4.8963E-08 -RFilter_m_d5_m1_e202 580 581 2.3509E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 -RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 -* -CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 -RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 -RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 -* -CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 -RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 -RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 -* -CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 -RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 -RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 -* -CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 -RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 1.0193E-09 -RFilter_m_d6_m1_e101 610 611 6.9612E-02 -* -CFilter_m_d6_m1_e102 611 612 6.6365E-08 -RFilter_m_d6_m1_e102 611 612 1.7250E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 1.0193E-09 -RFilter_m_d6_m1_e201 615 616 6.9612E-02 -* -CFilter_m_d6_m1_e202 616 617 6.6365E-08 -RFilter_m_d6_m1_e202 616 617 1.7250E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 -RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 -* -CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 -RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 -RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 -* -CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 -RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 -RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 -* -CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 -RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 -RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 -* -CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 -RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 5.1198E-10 -RFilter_m_d7_m1_e101 646 647 1.4326E-01 -* -CFilter_m_d7_m1_e102 647 648 3.1151E-08 -RFilter_m_d7_m1_e102 647 648 3.7091E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 5.1198E-10 -RFilter_m_d7_m1_e201 651 652 1.4326E-01 -* -CFilter_m_d7_m1_e202 652 653 3.1151E-08 -RFilter_m_d7_m1_e202 652 653 3.7091E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 -RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 -RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 -RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 -RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 1.0193E-09 -RFilter_m_d8_m1_e101 682 683 6.9612E-02 -* -CFilter_m_d8_m1_e102 683 684 6.6365E-08 -RFilter_m_d8_m1_e102 683 684 1.7250E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 1.0193E-09 -RFilter_m_d8_m1_e201 687 688 6.9612E-02 -* -CFilter_m_d8_m1_e202 688 689 6.6365E-08 -RFilter_m_d8_m1_e202 688 689 1.7250E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 -RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 -* -CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 -RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 -RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 -* -CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 -RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 -RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 -* -CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 -RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 -RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 -* -CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 -RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 6.239244E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 6.239244E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 2.0030E-09 -RFilter_m_d9_m1_e101 762 763 3.4790E-02 -* -CFilter_m_d9_m1_e102 763 764 1.3495E-07 -RFilter_m_d9_m1_e102 763 764 8.4084E-03 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 2.0030E-09 -RFilter_m_d9_m1_e201 767 768 3.4790E-02 -* -CFilter_m_d9_m1_e202 768 769 1.3495E-07 -RFilter_m_d9_m1_e202 768 769 8.4084E-03 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 6.239244E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 6.239244E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 -RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 -RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 -RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 -RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 -RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 -RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 -RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 -RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.8405E-09 -RFilter_m_d9_m2_e101 794 795 3.7899E-02 -* -CFilter_m_d9_m2_e102 795 796 1.2361E-07 -RFilter_m_d9_m2_e102 795 796 9.1683E-03 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.8405E-09 -RFilter_m_d9_m2_e201 799 800 3.7899E-02 -* -CFilter_m_d9_m2_e202 800 801 1.2361E-07 -RFilter_m_d9_m2_e202 800 801 9.1683E-03 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 -RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 -RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 -RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 -RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 -RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 -RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 -RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 -RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.8405E-09 -RFilter_m_d9_m3_e101 826 827 3.7899E-02 -* -CFilter_m_d9_m3_e102 827 828 1.2361E-07 -RFilter_m_d9_m3_e102 827 828 9.1683E-03 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.8405E-09 -RFilter_m_d9_m3_e201 831 832 3.7899E-02 -* -CFilter_m_d9_m3_e202 832 833 1.2361E-07 -RFilter_m_d9_m3_e202 832 833 9.1683E-03 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 -RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 -RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 -RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 -RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 -RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 -RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 -RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 -RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.687401E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.687401E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 1.2074E-09 -RFilter_m_d9_m4_e101 858 859 5.8330E-02 -* -CFilter_m_d9_m4_e102 859 860 7.9458E-08 -RFilter_m_d9_m4_e102 859 860 1.4288E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 1.2074E-09 -RFilter_m_d9_m4_e201 863 864 5.8330E-02 -* -CFilter_m_d9_m4_e202 864 865 7.9458E-08 -RFilter_m_d9_m4_e202 864 865 1.4288E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.687401E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.687401E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 -RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 -RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 -RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 -RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 5.674748E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 5.674748E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 5.674748E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 5.674748E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib deleted file mode 100644 index 4f65c2c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_Ngspice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 7.945587E-02 -Rdc_c2_e1 3 31 7.945587E-02 -Rdc_c3_e1 4 32 7.945587E-02 -Rdc_c4_e1 5 33 7.945587E-02 -Rdc_c5_e1 6 34 7.945587E-02 -Rdc_c6_e1 7 35 7.945587E-02 -Rdc_c7_e1 8 36 7.945587E-02 -Rdc_c8_e1 9 37 7.945587E-02 -Rdc_c9_e1 10 38 2.050000E-02 -Rdc_c10_e1 11 39 2.050000E-02 -Rdc_c11_e1 12 40 2.050000E-02 -Rdc_c12_e1 13 41 2.050000E-02 -Rdc_c13_e1 14 42 6.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 7.945587E-02 -Rdc_c2_e2 17 44 7.945587E-02 -Rdc_c3_e2 18 45 7.945587E-02 -Rdc_c4_e2 19 46 7.945587E-02 -Rdc_c5_e2 20 47 7.945587E-02 -Rdc_c6_e2 21 48 7.945587E-02 -Rdc_c7_e2 22 49 7.945587E-02 -Rdc_c8_e2 23 50 7.945587E-02 -Rdc_c9_e2 24 51 2.050000E-02 -Rdc_c10_e2 25 52 2.050000E-02 -Rdc_c11_e2 26 53 2.050000E-02 -Rdc_c12_e2 27 54 2.050000E-02 -Rdc_c13_e2 28 55 6.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 7.6911E-10 -RFilter_m_d1_m1_e101 428 429 9.3348E-02 -* -CFilter_m_d1_m1_e102 429 430 4.8963E-08 -RFilter_m_d1_m1_e102 429 430 2.3509E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 7.6911E-10 -RFilter_m_d1_m1_e201 433 434 9.3348E-02 -* -CFilter_m_d1_m1_e202 434 435 4.8963E-08 -RFilter_m_d1_m1_e202 434 435 2.3509E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 -RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 -* -CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 -RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 -RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 -* -CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 -RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 -RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 -* -CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 -RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 -RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 -* -CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 -RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 1.0193E-09 -RFilter_m_d2_m1_e101 466 467 6.9612E-02 -* -CFilter_m_d2_m1_e102 467 468 6.6365E-08 -RFilter_m_d2_m1_e102 467 468 1.7250E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 1.0193E-09 -RFilter_m_d2_m1_e201 471 472 6.9612E-02 -* -CFilter_m_d2_m1_e202 472 473 6.6365E-08 -RFilter_m_d2_m1_e202 472 473 1.7250E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 -RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 -* -CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 -RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 -RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 -* -CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 -RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 -RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 -* -CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 -RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 -RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 -* -CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 -RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 5.1198E-10 -RFilter_m_d3_m1_e101 502 503 1.4326E-01 -* -CFilter_m_d3_m1_e102 503 504 3.1151E-08 -RFilter_m_d3_m1_e102 503 504 3.7091E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 5.1198E-10 -RFilter_m_d3_m1_e201 507 508 1.4326E-01 -* -CFilter_m_d3_m1_e202 508 509 3.1151E-08 -RFilter_m_d3_m1_e202 508 509 3.7091E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 -RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 -RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 -RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 -RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 1.0193E-09 -RFilter_m_d4_m1_e101 538 539 6.9612E-02 -* -CFilter_m_d4_m1_e102 539 540 6.6365E-08 -RFilter_m_d4_m1_e102 539 540 1.7250E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 1.0193E-09 -RFilter_m_d4_m1_e201 543 544 6.9612E-02 -* -CFilter_m_d4_m1_e202 544 545 6.6365E-08 -RFilter_m_d4_m1_e202 544 545 1.7250E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 -RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 -* -CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 -RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 -RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 -* -CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 -RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 -RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 -* -CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 -RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 -RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 -* -CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 -RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 7.6911E-10 -RFilter_m_d5_m1_e101 574 575 9.3348E-02 -* -CFilter_m_d5_m1_e102 575 576 4.8963E-08 -RFilter_m_d5_m1_e102 575 576 2.3509E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 7.6911E-10 -RFilter_m_d5_m1_e201 579 580 9.3348E-02 -* -CFilter_m_d5_m1_e202 580 581 4.8963E-08 -RFilter_m_d5_m1_e202 580 581 2.3509E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 -RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 -* -CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 -RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 -RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 -* -CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 -RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 -RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 -* -CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 -RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 -RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 -* -CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 -RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 1.0193E-09 -RFilter_m_d6_m1_e101 610 611 6.9612E-02 -* -CFilter_m_d6_m1_e102 611 612 6.6365E-08 -RFilter_m_d6_m1_e102 611 612 1.7250E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 1.0193E-09 -RFilter_m_d6_m1_e201 615 616 6.9612E-02 -* -CFilter_m_d6_m1_e202 616 617 6.6365E-08 -RFilter_m_d6_m1_e202 616 617 1.7250E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 -RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 -* -CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 -RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 -RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 -* -CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 -RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 -RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 -* -CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 -RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 -RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 -* -CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 -RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 5.1198E-10 -RFilter_m_d7_m1_e101 646 647 1.4326E-01 -* -CFilter_m_d7_m1_e102 647 648 3.1151E-08 -RFilter_m_d7_m1_e102 647 648 3.7091E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 5.1198E-10 -RFilter_m_d7_m1_e201 651 652 1.4326E-01 -* -CFilter_m_d7_m1_e202 652 653 3.1151E-08 -RFilter_m_d7_m1_e202 652 653 3.7091E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.807456E-07 C= 3.735270E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 -RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 -RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 -RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 -RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 1.0193E-09 -RFilter_m_d8_m1_e101 682 683 6.9612E-02 -* -CFilter_m_d8_m1_e102 683 684 6.6365E-08 -RFilter_m_d8_m1_e102 683 684 1.7250E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 1.0193E-09 -RFilter_m_d8_m1_e201 687 688 6.9612E-02 -* -CFilter_m_d8_m1_e202 688 689 6.6365E-08 -RFilter_m_d8_m1_e202 688 689 1.7250E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.709059E-07 C= 7.514257E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 -RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 -* -CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 -RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 -RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 -* -CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 -RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 -RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 -* -CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 -RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 -RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 -* -CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 -RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 6.239244E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 6.239244E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 2.0030E-09 -RFilter_m_d9_m1_e101 762 763 3.4790E-02 -* -CFilter_m_d9_m1_e102 763 764 1.3495E-07 -RFilter_m_d9_m1_e102 763 764 8.4084E-03 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 2.0030E-09 -RFilter_m_d9_m1_e201 767 768 3.4790E-02 -* -CFilter_m_d9_m1_e202 768 769 1.3495E-07 -RFilter_m_d9_m1_e202 768 769 8.4084E-03 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 6.239244E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 6.239244E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 -RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 -RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 -RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 -RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 -RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 -RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 -RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 -RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.8405E-09 -RFilter_m_d9_m2_e101 794 795 3.7899E-02 -* -CFilter_m_d9_m2_e102 795 796 1.2361E-07 -RFilter_m_d9_m2_e102 795 796 9.1683E-03 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.8405E-09 -RFilter_m_d9_m2_e201 799 800 3.7899E-02 -* -CFilter_m_d9_m2_e202 800 801 1.2361E-07 -RFilter_m_d9_m2_e202 800 801 9.1683E-03 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 -RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 -RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 -RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 -RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 -RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 -RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 -RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 -RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.8405E-09 -RFilter_m_d9_m3_e101 826 827 3.7899E-02 -* -CFilter_m_d9_m3_e102 827 828 1.2361E-07 -RFilter_m_d9_m3_e102 827 828 9.1683E-03 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.8405E-09 -RFilter_m_d9_m3_e201 831 832 3.7899E-02 -* -CFilter_m_d9_m3_e202 832 833 1.2361E-07 -RFilter_m_d9_m3_e202 832 833 9.1683E-03 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 -RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 -RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 -RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 -RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 -RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 -RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 -RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 -RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.687401E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.687401E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 1.2074E-09 -RFilter_m_d9_m4_e101 858 859 5.8330E-02 -* -CFilter_m_d9_m4_e102 859 860 7.9458E-08 -RFilter_m_d9_m4_e102 859 860 1.4288E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 1.2074E-09 -RFilter_m_d9_m4_e201 863 864 5.8330E-02 -* -CFilter_m_d9_m4_e202 864 865 7.9458E-08 -RFilter_m_d9_m4_e202 864 865 1.4288E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.687401E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.687401E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 -RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 -RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 -RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 -RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 5.674748E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 5.674748E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 5.674748E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 5.674748E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 4.510441E-07 C= 1.158657E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.274535E-07 C= 5.842902E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 2.235906E-07 C= 5.743671E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.948501E-07 C= 2.945481E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.026792E-07 C= 1.552166E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.217088E-08 C= 1.393315E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.299451E-07 C= 4.563763E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.947507E-08 C= 2.440014E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.046999E-08 C= 2.123749E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 4.018310E-07 C= 1.247815E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.068746E-07 C= 6.424125E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 4.215027E-07 C= 1.308902E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.265463E-07 C= 7.034994E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 4.286018E-07 C= 1.330947E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 1.949564E-07 C= 6.054027E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.336454E-07 C= 7.255445E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib deleted file mode 100644 index 1d4b8a5..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_PSpice.lib +++ /dev/null @@ -1,3778 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_26_ESCC_3902003_V2. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 7.945587E-02 -Rdc_c2_e1 3 31 7.945587E-02 -Rdc_c3_e1 4 32 7.945587E-02 -Rdc_c4_e1 5 33 7.945587E-02 -Rdc_c5_e1 6 34 7.945587E-02 -Rdc_c6_e1 7 35 7.945587E-02 -Rdc_c7_e1 8 36 7.945587E-02 -Rdc_c8_e1 9 37 7.945587E-02 -Rdc_c9_e1 10 38 2.050000E-02 -Rdc_c10_e1 11 39 2.050000E-02 -Rdc_c11_e1 12 40 2.050000E-02 -Rdc_c12_e1 13 41 2.050000E-02 -Rdc_c13_e1 14 42 6.000000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 7.945587E-02 -Rdc_c2_e2 17 44 7.945587E-02 -Rdc_c3_e2 18 45 7.945587E-02 -Rdc_c4_e2 19 46 7.945587E-02 -Rdc_c5_e2 20 47 7.945587E-02 -Rdc_c6_e2 21 48 7.945587E-02 -Rdc_c7_e2 22 49 7.945587E-02 -Rdc_c8_e2 23 50 7.945587E-02 -Rdc_c9_e2 24 51 2.050000E-02 -Rdc_c10_e2 25 52 2.050000E-02 -Rdc_c11_e2 26 53 2.050000E-02 -Rdc_c12_e2 27 54 2.050000E-02 -Rdc_c13_e2 28 55 6.000000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 7.6911E-10 -RFilter_m_d1_m1_e101 428 429 9.3348E-02 -* -CFilter_m_d1_m1_e102 429 430 4.8963E-08 -RFilter_m_d1_m1_e102 429 430 2.3509E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 7.6911E-10 -RFilter_m_d1_m1_e201 433 434 9.3348E-02 -* -CFilter_m_d1_m1_e202 434 435 4.8963E-08 -RFilter_m_d1_m1_e202 434 435 2.3509E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 7.6911E-10 -RFilter_m_pz_d1_m1_e101 440 441 9.3348E-02 -* -CFilter_m_pz_d1_m1_e102 441 442 4.8963E-08 -RFilter_m_pz_d1_m1_e102 441 442 2.3509E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 7.6911E-10 -RFilter_m_pz_d1_m1_e201 444 445 9.3348E-02 -* -CFilter_m_pz_d1_m1_e202 445 446 4.8963E-08 -RFilter_m_pz_d1_m1_e202 445 446 2.3509E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 7.6911E-10 -RFilter_m_mz_d1_m1_e101 449 450 9.3348E-02 -* -CFilter_m_mz_d1_m1_e102 450 451 4.8963E-08 -RFilter_m_mz_d1_m1_e102 450 451 2.3509E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 7.6911E-10 -RFilter_m_mz_d1_m1_e201 453 454 9.3348E-02 -* -CFilter_m_mz_d1_m1_e202 454 455 4.8963E-08 -RFilter_m_mz_d1_m1_e202 454 455 2.3509E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.953692E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 1.0193E-09 -RFilter_m_d2_m1_e101 466 467 6.9612E-02 -* -CFilter_m_d2_m1_e102 467 468 6.6365E-08 -RFilter_m_d2_m1_e102 467 468 1.7250E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 1.0193E-09 -RFilter_m_d2_m1_e201 471 472 6.9612E-02 -* -CFilter_m_d2_m1_e202 472 473 6.6365E-08 -RFilter_m_d2_m1_e202 472 473 1.7250E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 1.0193E-09 -RFilter_m_pz_d2_m1_e101 478 479 6.9612E-02 -* -CFilter_m_pz_d2_m1_e102 479 480 6.6365E-08 -RFilter_m_pz_d2_m1_e102 479 480 1.7250E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 1.0193E-09 -RFilter_m_pz_d2_m1_e201 482 483 6.9612E-02 -* -CFilter_m_pz_d2_m1_e202 483 484 6.6365E-08 -RFilter_m_pz_d2_m1_e202 483 484 1.7250E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 1.0193E-09 -RFilter_m_mz_d2_m1_e101 487 488 6.9612E-02 -* -CFilter_m_mz_d2_m1_e102 488 489 6.6365E-08 -RFilter_m_mz_d2_m1_e102 488 489 1.7250E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 1.0193E-09 -RFilter_m_mz_d2_m1_e201 491 492 6.9612E-02 -* -CFilter_m_mz_d2_m1_e202 492 493 6.6365E-08 -RFilter_m_mz_d2_m1_e202 492 493 1.7250E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -9.200801E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 5.1198E-10 -RFilter_m_d3_m1_e101 502 503 1.4326E-01 -* -CFilter_m_d3_m1_e102 503 504 3.1151E-08 -RFilter_m_d3_m1_e102 503 504 3.7091E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 5.1198E-10 -RFilter_m_d3_m1_e201 507 508 1.4326E-01 -* -CFilter_m_d3_m1_e202 508 509 3.1151E-08 -RFilter_m_d3_m1_e202 508 509 3.7091E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 5.1198E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.4326E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 3.1151E-08 -RFilter_m_pz_d3_m1_e102 515 516 3.7091E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 5.1198E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.4326E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 3.1151E-08 -RFilter_m_pz_d3_m1_e202 519 520 3.7091E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 5.1198E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.4326E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 3.1151E-08 -RFilter_m_mz_d3_m1_e102 524 525 3.7091E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 5.1198E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.4326E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 3.1151E-08 -RFilter_m_mz_d3_m1_e202 528 529 3.7091E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.472055E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 1.0193E-09 -RFilter_m_d4_m1_e101 538 539 6.9612E-02 -* -CFilter_m_d4_m1_e102 539 540 6.6365E-08 -RFilter_m_d4_m1_e102 539 540 1.7250E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 1.0193E-09 -RFilter_m_d4_m1_e201 543 544 6.9612E-02 -* -CFilter_m_d4_m1_e202 544 545 6.6365E-08 -RFilter_m_d4_m1_e202 544 545 1.7250E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Delay line for negative z propagation -* -T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 1.0193E-09 -RFilter_m_pz_d4_m1_e101 550 551 6.9612E-02 -* -CFilter_m_pz_d4_m1_e102 551 552 6.6365E-08 -RFilter_m_pz_d4_m1_e102 551 552 1.7250E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 1.0193E-09 -RFilter_m_pz_d4_m1_e201 554 555 6.9612E-02 -* -CFilter_m_pz_d4_m1_e202 555 556 6.6365E-08 -RFilter_m_pz_d4_m1_e202 555 556 1.7250E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 1.0193E-09 -RFilter_m_mz_d4_m1_e101 559 560 6.9612E-02 -* -CFilter_m_mz_d4_m1_e102 560 561 6.6365E-08 -RFilter_m_mz_d4_m1_e102 560 561 1.7250E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 1.0193E-09 -RFilter_m_mz_d4_m1_e201 563 564 6.9612E-02 -* -CFilter_m_mz_d4_m1_e202 564 565 6.6365E-08 -RFilter_m_mz_d4_m1_e202 564 565 1.7250E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -9.200801E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 7.6911E-10 -RFilter_m_d5_m1_e101 574 575 9.3348E-02 -* -CFilter_m_d5_m1_e102 575 576 4.8963E-08 -RFilter_m_d5_m1_e102 575 576 2.3509E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.953692E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 7.6911E-10 -RFilter_m_d5_m1_e201 579 580 9.3348E-02 -* -CFilter_m_d5_m1_e202 580 581 4.8963E-08 -RFilter_m_d5_m1_e202 580 581 2.3509E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.953692E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Delay line for negative z propagation -* -T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 7.6911E-10 -RFilter_m_pz_d5_m1_e101 586 587 9.3348E-02 -* -CFilter_m_pz_d5_m1_e102 587 588 4.8963E-08 -RFilter_m_pz_d5_m1_e102 587 588 2.3509E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 7.6911E-10 -RFilter_m_pz_d5_m1_e201 590 591 9.3348E-02 -* -CFilter_m_pz_d5_m1_e202 591 592 4.8963E-08 -RFilter_m_pz_d5_m1_e202 591 592 2.3509E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.953692E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 7.6911E-10 -RFilter_m_mz_d5_m1_e101 595 596 9.3348E-02 -* -CFilter_m_mz_d5_m1_e102 596 597 4.8963E-08 -RFilter_m_mz_d5_m1_e102 596 597 2.3509E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.790738E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 7.6911E-10 -RFilter_m_mz_d5_m1_e201 599 600 9.3348E-02 -* -CFilter_m_mz_d5_m1_e202 600 601 4.8963E-08 -RFilter_m_mz_d5_m1_e202 600 601 2.3509E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.953692E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 1.0193E-09 -RFilter_m_d6_m1_e101 610 611 6.9612E-02 -* -CFilter_m_d6_m1_e102 611 612 6.6365E-08 -RFilter_m_d6_m1_e102 611 612 1.7250E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 1.0193E-09 -RFilter_m_d6_m1_e201 615 616 6.9612E-02 -* -CFilter_m_d6_m1_e202 616 617 6.6365E-08 -RFilter_m_d6_m1_e202 616 617 1.7250E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Delay line for negative z propagation -* -T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 1.0193E-09 -RFilter_m_pz_d6_m1_e101 622 623 6.9612E-02 -* -CFilter_m_pz_d6_m1_e102 623 624 6.6365E-08 -RFilter_m_pz_d6_m1_e102 623 624 1.7250E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 1.0193E-09 -RFilter_m_pz_d6_m1_e201 626 627 6.9612E-02 -* -CFilter_m_pz_d6_m1_e202 627 628 6.6365E-08 -RFilter_m_pz_d6_m1_e202 627 628 1.7250E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 1.0193E-09 -RFilter_m_mz_d6_m1_e101 631 632 6.9612E-02 -* -CFilter_m_mz_d6_m1_e102 632 633 6.6365E-08 -RFilter_m_mz_d6_m1_e102 632 633 1.7250E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 1.0193E-09 -RFilter_m_mz_d6_m1_e201 635 636 6.9612E-02 -* -CFilter_m_mz_d6_m1_e202 636 637 6.6365E-08 -RFilter_m_mz_d6_m1_e202 636 637 1.7250E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -9.200801E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 1.009616E+02 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 1.009616E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 5.1198E-10 -RFilter_m_d7_m1_e101 646 647 1.4326E-01 -* -CFilter_m_d7_m1_e102 647 648 3.1151E-08 -RFilter_m_d7_m1_e102 647 648 3.7091E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.472055E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 5.1198E-10 -RFilter_m_d7_m1_e201 651 652 1.4326E-01 -* -CFilter_m_d7_m1_e202 652 653 3.1151E-08 -RFilter_m_d7_m1_e202 652 653 3.7091E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.472055E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Delay line for negative z propagation -* -T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.807456E-07 G=0.0 C= 3.735270E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 1.009616E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 1.009616E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 5.1198E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.4326E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 3.1151E-08 -RFilter_m_pz_d7_m1_e102 659 660 3.7091E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 5.1198E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.4326E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 3.1151E-08 -RFilter_m_pz_d7_m1_e202 663 664 3.7091E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.472055E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 5.1198E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.4326E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 3.1151E-08 -RFilter_m_mz_d7_m1_e102 668 669 3.7091E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.694411E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 5.1198E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.4326E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 3.1151E-08 -RFilter_m_mz_d7_m1_e202 672 673 3.7091E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.472055E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 4.769090E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 4.769090E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 1.0193E-09 -RFilter_m_d8_m1_e101 682 683 6.9612E-02 -* -CFilter_m_d8_m1_e102 683 684 6.6365E-08 -RFilter_m_d8_m1_e102 683 684 1.7250E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 9.200801E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 1.0193E-09 -RFilter_m_d8_m1_e201 687 688 6.9612E-02 -* -CFilter_m_d8_m1_e202 688 689 6.6365E-08 -RFilter_m_d8_m1_e202 688 689 1.7250E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 9.200801E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Delay line for negative z propagation -* -T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.709059E-07 G=0.0 C= 7.514257E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 4.769090E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 4.769090E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 1.0193E-09 -RFilter_m_pz_d8_m1_e101 694 695 6.9612E-02 -* -CFilter_m_pz_d8_m1_e102 695 696 6.6365E-08 -RFilter_m_pz_d8_m1_e102 695 696 1.7250E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 1.0193E-09 -RFilter_m_pz_d8_m1_e201 698 699 6.9612E-02 -* -CFilter_m_pz_d8_m1_e202 699 700 6.6365E-08 -RFilter_m_pz_d8_m1_e202 699 700 1.7250E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -9.200801E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 1.0193E-09 -RFilter_m_mz_d8_m1_e101 703 704 6.9612E-02 -* -CFilter_m_mz_d8_m1_e102 704 705 6.6365E-08 -RFilter_m_mz_d8_m1_e102 704 705 1.7250E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.840160E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 1.0193E-09 -RFilter_m_mz_d8_m1_e201 707 708 6.9612E-02 -* -CFilter_m_mz_d8_m1_e202 708 709 6.6365E-08 -RFilter_m_mz_d8_m1_e202 708 709 1.7250E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -9.200801E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 -5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -7.03212670E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 7.41076296E-02 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 -5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -7.41076296E-02 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 -7.03212670E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 7.03212670E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 -7.41076296E-02 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 -5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 7.41076296E-02 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 7.03212670E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 -5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 -5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -7.03212670E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -7.41076296E-02 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 7.03212670E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 7.41076296E-02 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 7.41076296E-02 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 -7.03212670E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 -7.41076296E-02 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 7.03212670E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 6.239244E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 6.239244E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 2.0030E-09 -RFilter_m_d9_m1_e101 762 763 3.4790E-02 -* -CFilter_m_d9_m1_e102 763 764 1.3495E-07 -RFilter_m_d9_m1_e102 763 764 8.4084E-03 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.585903E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 2.0030E-09 -RFilter_m_d9_m1_e201 767 768 3.4790E-02 -* -CFilter_m_d9_m1_e202 768 769 1.3495E-07 -RFilter_m_d9_m1_e202 768 769 8.4084E-03 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.585903E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 -* -* Delay line for negative z propagation -* -T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 6.239244E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 6.239244E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 2.0030E-09 -RFilter_m_pz_d9_m1_e101 774 775 3.4790E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 1.3495E-07 -RFilter_m_pz_d9_m1_e102 775 776 8.4084E-03 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 2.0030E-09 -RFilter_m_pz_d9_m1_e201 778 779 3.4790E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 1.3495E-07 -RFilter_m_pz_d9_m1_e202 779 780 8.4084E-03 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.585903E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 2.0030E-09 -RFilter_m_mz_d9_m1_e101 783 784 3.4790E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 1.3495E-07 -RFilter_m_mz_d9_m1_e102 784 785 8.4084E-03 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.917181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 2.0030E-09 -RFilter_m_mz_d9_m1_e201 787 788 3.4790E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 1.3495E-07 -RFilter_m_mz_d9_m1_e202 788 789 8.4084E-03 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.585903E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.8405E-09 -RFilter_m_d9_m2_e101 794 795 3.7899E-02 -* -CFilter_m_d9_m2_e102 795 796 1.2361E-07 -RFilter_m_d9_m2_e102 795 796 9.1683E-03 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.8405E-09 -RFilter_m_d9_m2_e201 799 800 3.7899E-02 -* -CFilter_m_d9_m2_e202 800 801 1.2361E-07 -RFilter_m_d9_m2_e202 800 801 9.1683E-03 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.8405E-09 -RFilter_m_pz_d9_m2_e101 806 807 3.7899E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 1.2361E-07 -RFilter_m_pz_d9_m2_e102 807 808 9.1683E-03 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.8405E-09 -RFilter_m_pz_d9_m2_e201 810 811 3.7899E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 1.2361E-07 -RFilter_m_pz_d9_m2_e202 811 812 9.1683E-03 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.8405E-09 -RFilter_m_mz_d9_m2_e101 815 816 3.7899E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 1.2361E-07 -RFilter_m_mz_d9_m2_e102 816 817 9.1683E-03 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.8405E-09 -RFilter_m_mz_d9_m2_e201 819 820 3.7899E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 1.2361E-07 -RFilter_m_mz_d9_m2_e202 820 821 9.1683E-03 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.572007E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.572007E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.8405E-09 -RFilter_m_d9_m3_e101 826 827 3.7899E-02 -* -CFilter_m_d9_m3_e102 827 828 1.2361E-07 -RFilter_m_d9_m3_e102 827 828 9.1683E-03 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.550483E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.8405E-09 -RFilter_m_d9_m3_e201 831 832 3.7899E-02 -* -CFilter_m_d9_m3_e202 832 833 1.2361E-07 -RFilter_m_d9_m3_e202 832 833 9.1683E-03 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.550483E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.572007E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.572007E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.8405E-09 -RFilter_m_pz_d9_m3_e101 838 839 3.7899E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 1.2361E-07 -RFilter_m_pz_d9_m3_e102 839 840 9.1683E-03 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.8405E-09 -RFilter_m_pz_d9_m3_e201 842 843 3.7899E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 1.2361E-07 -RFilter_m_pz_d9_m3_e202 843 844 9.1683E-03 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.550483E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.8405E-09 -RFilter_m_mz_d9_m3_e101 847 848 3.7899E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 1.2361E-07 -RFilter_m_mz_d9_m3_e102 848 849 9.1683E-03 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.910097E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.8405E-09 -RFilter_m_mz_d9_m3_e201 851 852 3.7899E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 1.2361E-07 -RFilter_m_mz_d9_m3_e202 852 853 9.1683E-03 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.550483E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.687401E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.687401E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 1.2074E-09 -RFilter_m_d9_m4_e101 858 859 5.8330E-02 -* -CFilter_m_d9_m4_e102 859 860 7.9458E-08 -RFilter_m_d9_m4_e102 859 860 1.4288E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.322982E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 1.2074E-09 -RFilter_m_d9_m4_e201 863 864 5.8330E-02 -* -CFilter_m_d9_m4_e202 864 865 7.9458E-08 -RFilter_m_d9_m4_e202 864 865 1.4288E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.322982E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.687401E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.687401E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 1.2074E-09 -RFilter_m_pz_d9_m4_e101 870 871 5.8330E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 7.9458E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.4288E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 1.2074E-09 -RFilter_m_pz_d9_m4_e201 874 875 5.8330E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 7.9458E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.4288E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.322982E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 1.2074E-09 -RFilter_m_mz_d9_m4_e101 879 880 5.8330E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 7.9458E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.4288E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.864596E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 1.2074E-09 -RFilter_m_mz_d9_m4_e201 883 884 5.8330E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 7.9458E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.4288E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.322982E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 5.674748E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 5.674748E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Delay line for negative z propagation -* -T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 5.674748E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 5.674748E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.510441E-07 G=0.0 C= 1.158657E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.510441E-07 G=0.0 C= 1.158657E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.623924E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.274535E-07 G=0.0 C= 5.842902E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.623924E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.235906E-07 G=0.0 C= 5.743671E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.235906E-07 G=0.0 C= 5.743671E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.623924E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.623924E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.948501E-07 G=0.0 C= 2.945481E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.257201E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.026792E-07 G=0.0 C= 1.552166E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.257201E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.217088E-08 G=0.0 C= 1.393315E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.257201E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.257201E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.299451E-07 G=0.0 C= 4.563763E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.299451E-07 G=0.0 C= 4.563763E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.168740E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.947507E-08 G=0.0 C= 2.440014E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.168740E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.046999E-08 G=0.0 C= 2.123749E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.046999E-08 G=0.0 C= 2.123749E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.168740E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.168740E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 -0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 0.184884E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 -0.184884E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 -0.215878E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 -0.215878E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 0.215878E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.601915E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.601915E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.111610E+00 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.111610E+00 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.111610E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 -0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 -0.634325E-03 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 0.634325E-03 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 0.117619E-01 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 -0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 0.117619E-01 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 -0.117619E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.641741E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.641741E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.926044E-01 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.926044E-01 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.926044E-01 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -CFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.0193E-09 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 6.9612E-02 -* -CFilter_ZT_s_ZT1_sm_4_vm_102 980 981 6.6365E-08 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 1.7250E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 1.0000E+00 -* -* -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 1 5.516661E-02 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 983 975 1 1.000000E+00 -* -CFilter_ZT_l_ZT1_sm_4_vm_101 983 984 1.0193E-09 -RFilter_ZT_l_ZT1_sm_4_vm_101 983 984 6.9612E-02 -* -CFilter_ZT_l_ZT1_sm_4_vm_102 984 985 6.6365E-08 -RFilter_ZT_l_ZT1_sm_4_vm_102 984 985 1.7250E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 985 1 1.0000E+00 -* -* -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 983 1 5.516661E-02 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_1 986 1 987 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.018310E-07 G=0.0 C= 1.247815E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.018310E-07 G=0.0 C= 1.247815E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 987 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 989 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 986 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 988 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 991 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 993 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 990 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 992 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.068746E-07 G=0.0 C= 6.424125E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.068746E-07 G=0.0 C= 6.424125E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 995 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 997 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 994 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 996 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 998 1 895 1 0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 999 998 989 1 -0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1000 1 894 1 0.830110E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1001 1000 987 1 -0.830110E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1002 999 995 1 0.279879E+00 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1003 1002 991 1 -0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1004 1001 997 1 0.279879E+00 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1005 1004 993 1 -0.279879E+00 -R_zt_dsum_l_ZT2_sm_1_vm_1 1003 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1007 1005 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 2.4244E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1007 1008 3.4790E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 9.5412E-12 -RFilter_ZT_s_ZT2_sm_1_vm_102 1008 1009 8.4084E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1009 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1010 1005 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1010 1.5648E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1007 1010 1.350677E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1012 1003 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 2.4244E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1012 1013 3.4790E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 9.5412E-12 -RFilter_ZT_l_ZT2_sm_1_vm_102 1013 1014 8.4084E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1014 1 5.2160E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1015 1003 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1015 1.5648E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1012 1015 1.350677E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 1017 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1017 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1016 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1018 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1021 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1023 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1020 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1022 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1025 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1027 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1024 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1026 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1028 1 895 1 -0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1029 1028 1019 1 0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1030 1 894 1 -0.477737E-17 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1031 1030 1017 1 0.477737E-17 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1032 1029 1025 1 -0.637443E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1033 1032 1021 1 0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1034 1031 1027 1 -0.637443E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1035 1034 1023 1 0.637443E-16 -R_zt_dsum_l_ZT2_sm_1_vm_2 1033 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1037 1035 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1037 1038 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1038 1039 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1039 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1040 1035 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1040 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1037 1040 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1042 1033 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1042 1043 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1043 1044 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1044 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1045 1033 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1045 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1042 1045 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 1047 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.215027E-07 G=0.0 C= 1.308902E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1047 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1046 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1048 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1051 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1053 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1050 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1052 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.265463E-07 G=0.0 C= 7.034994E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1055 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1057 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1054 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1056 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1058 1 895 1 0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1059 1058 1049 1 -0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1060 1 894 1 0.834666E-17 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1061 1060 1047 1 -0.834666E-17 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1062 1059 1055 1 0.111369E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1063 1062 1051 1 -0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1064 1061 1057 1 0.111369E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1065 1064 1053 1 -0.111369E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1063 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1067 1065 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 2.6436E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1067 1068 3.7899E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 1.0390E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1068 1069 9.1683E-03 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1069 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1070 1065 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1070 1.5706E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1067 1070 1.345686E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1072 1063 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 2.6436E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1072 1073 3.7899E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 1.0390E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1073 1074 9.1683E-03 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1074 1 5.2353E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1075 1063 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1075 1.5706E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1072 1075 1.345686E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 1077 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.286018E-07 G=0.0 C= 1.330947E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.286018E-07 G=0.0 C= 1.330947E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1077 1 0.567475E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1076 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1078 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.949564E-07 G=0.0 C= 6.054027E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1081 1 0.567475E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1083 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1080 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1082 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.336454E-07 G=0.0 C= 7.255445E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.336454E-07 G=0.0 C= 7.255445E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1085 1 0.567475E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1087 1 0.567475E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1084 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1086 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1088 1 895 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1089 1088 1079 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1090 1 894 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1091 1090 1077 1 0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1092 1089 1085 1 -0.000000E+00 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1093 1092 1081 1 0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1094 1091 1087 1 -0.000000E+00 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1095 1094 1083 1 0.000000E+00 -R_zt_dsum_l_ZT2_sm_1_vm_4 1093 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1097 1095 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 4.1080E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1097 1098 5.8330E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.6221E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1098 1099 1.4288E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1099 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1100 1095 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1100 1.6089E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1097 1100 1.313631E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1102 1093 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 4.1080E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1102 1103 5.8330E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.6221E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1103 1104 1.4288E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1104 1 5.3631E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1105 1093 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1105 1.6089E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1102 1105 1.313631E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec deleted file mode 100644 index 20cd3b2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib deleted file mode 100644 index dbdac33..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_LTspice.lib +++ /dev/null @@ -1,3786 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.280225E-01 -Rdc_c2_e1 3 31 1.280225E-01 -Rdc_c3_e1 4 32 1.280225E-01 -Rdc_c4_e1 5 33 1.280225E-01 -Rdc_c5_e1 6 34 1.280225E-01 -Rdc_c6_e1 7 35 1.280225E-01 -Rdc_c7_e1 8 36 1.280225E-01 -Rdc_c8_e1 9 37 1.280225E-01 -Rdc_c9_e1 10 38 3.100000E-02 -Rdc_c10_e1 11 39 3.100000E-02 -Rdc_c11_e1 12 40 3.100000E-02 -Rdc_c12_e1 13 41 3.100000E-02 -Rdc_c13_e1 14 42 8.500000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.280225E-01 -Rdc_c2_e2 17 44 1.280225E-01 -Rdc_c3_e2 18 45 1.280225E-01 -Rdc_c4_e2 19 46 1.280225E-01 -Rdc_c5_e2 20 47 1.280225E-01 -Rdc_c6_e2 21 48 1.280225E-01 -Rdc_c7_e2 22 49 1.280225E-01 -Rdc_c8_e2 23 50 1.280225E-01 -Rdc_c9_e2 24 51 3.100000E-02 -Rdc_c10_e2 25 52 3.100000E-02 -Rdc_c11_e2 26 53 3.100000E-02 -Rdc_c12_e2 27 54 3.100000E-02 -Rdc_c13_e2 28 55 8.500000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.9209E-10 -RFilter_m_d1_m1_e101 428 429 1.2226E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6701E-08 -RFilter_m_d1_m1_e102 429 430 3.1007E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.9209E-10 -RFilter_m_d1_m1_e201 433 434 1.2226E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6701E-08 -RFilter_m_d1_m1_e202 434 435 3.1007E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.8574E-10 -RFilter_m_d2_m1_e101 466 467 1.2358E-01 -* -CFilter_m_d2_m1_e102 467 468 3.6258E-08 -RFilter_m_d2_m1_e102 467 468 3.1328E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.8574E-10 -RFilter_m_d2_m1_e201 471 472 1.2358E-01 -* -CFilter_m_d2_m1_e202 472 473 3.6258E-08 -RFilter_m_d2_m1_e202 472 473 3.1328E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.9373E-10 -RFilter_m_d3_m1_e101 502 503 1.8896E-01 -* -CFilter_m_d3_m1_e102 503 504 2.3036E-08 -RFilter_m_d3_m1_e102 503 504 4.9652E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.9373E-10 -RFilter_m_d3_m1_e201 507 508 1.8896E-01 -* -CFilter_m_d3_m1_e202 508 509 2.3036E-08 -RFilter_m_d3_m1_e202 508 509 4.9652E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 -RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 -RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 -RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 -RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.8574E-10 -RFilter_m_d4_m1_e101 538 539 1.2358E-01 -* -CFilter_m_d4_m1_e102 539 540 3.6258E-08 -RFilter_m_d4_m1_e102 539 540 3.1328E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.8574E-10 -RFilter_m_d4_m1_e201 543 544 1.2358E-01 -* -CFilter_m_d4_m1_e202 544 545 3.6258E-08 -RFilter_m_d4_m1_e202 544 545 3.1328E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.9209E-10 -RFilter_m_d5_m1_e101 574 575 1.2226E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6701E-08 -RFilter_m_d5_m1_e102 575 576 3.1007E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.9209E-10 -RFilter_m_d5_m1_e201 579 580 1.2226E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6701E-08 -RFilter_m_d5_m1_e202 580 581 3.1007E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.8574E-10 -RFilter_m_d6_m1_e101 610 611 1.2358E-01 -* -CFilter_m_d6_m1_e102 611 612 3.6258E-08 -RFilter_m_d6_m1_e102 611 612 3.1328E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.8574E-10 -RFilter_m_d6_m1_e201 615 616 1.2358E-01 -* -CFilter_m_d6_m1_e202 616 617 3.6258E-08 -RFilter_m_d6_m1_e202 616 617 3.1328E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.9373E-10 -RFilter_m_d7_m1_e101 646 647 1.8896E-01 -* -CFilter_m_d7_m1_e102 647 648 2.3036E-08 -RFilter_m_d7_m1_e102 647 648 4.9652E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.9373E-10 -RFilter_m_d7_m1_e201 651 652 1.8896E-01 -* -CFilter_m_d7_m1_e202 652 653 2.3036E-08 -RFilter_m_d7_m1_e202 652 653 4.9652E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 -RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 -RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 -RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 -RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.8574E-10 -RFilter_m_d8_m1_e101 682 683 1.2358E-01 -* -CFilter_m_d8_m1_e102 683 684 3.6258E-08 -RFilter_m_d8_m1_e102 683 684 3.1328E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.8574E-10 -RFilter_m_d8_m1_e201 687 688 1.2358E-01 -* -CFilter_m_d8_m1_e202 688 689 3.6258E-08 -RFilter_m_d8_m1_e202 688 689 3.1328E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 4.742867E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 4.742867E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 1.1201E-09 -RFilter_m_d9_m1_e101 762 763 6.2941E-02 -* -CFilter_m_d9_m1_e102 763 764 7.3380E-08 -RFilter_m_d9_m1_e102 763 764 1.5426E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 1.1201E-09 -RFilter_m_d9_m1_e201 767 768 6.2941E-02 -* -CFilter_m_d9_m1_e202 768 769 7.3380E-08 -RFilter_m_d9_m1_e202 768 769 1.5426E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 4.742867E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 4.742867E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 -RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 -RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 -RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 -RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 -RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 -RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 -RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 -RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.3285E-09 -RFilter_m_d9_m2_e101 794 795 5.2739E-02 -* -CFilter_m_d9_m2_e102 795 796 8.7897E-08 -RFilter_m_d9_m2_e102 795 796 1.2807E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.3285E-09 -RFilter_m_d9_m2_e201 799 800 5.2739E-02 -* -CFilter_m_d9_m2_e202 800 801 8.7897E-08 -RFilter_m_d9_m2_e202 800 801 1.2807E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 -RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 -RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 -RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 -RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 -RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 -RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 -RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 -RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.3285E-09 -RFilter_m_d9_m3_e101 826 827 5.2739E-02 -* -CFilter_m_d9_m3_e102 827 828 8.7897E-08 -RFilter_m_d9_m3_e102 827 828 1.2807E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.3285E-09 -RFilter_m_d9_m3_e201 831 832 5.2739E-02 -* -CFilter_m_d9_m3_e202 832 833 8.7897E-08 -RFilter_m_d9_m3_e202 832 833 1.2807E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 -RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 -RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 -RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 -RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 -RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 -RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 -RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 -RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.776751E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.776751E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 9.4177E-10 -RFilter_m_d9_m4_e101 858 859 7.5168E-02 -* -CFilter_m_d9_m4_e102 859 860 6.0964E-08 -RFilter_m_d9_m4_e102 859 860 1.8500E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 9.4177E-10 -RFilter_m_d9_m4_e201 863 864 7.5168E-02 -* -CFilter_m_d9_m4_e202 864 865 6.0964E-08 -RFilter_m_d9_m4_e202 864 865 1.8500E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.776751E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.776751E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 -RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 -RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 -RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 -RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 8.051885E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 8.051885E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 8.051885E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 8.051885E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 -* -LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 -* -LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 -RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 -* -LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 -RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 -R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 -R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 -R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib deleted file mode 100644 index 6189f53..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib +++ /dev/null @@ -1,3786 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.280225E-01 -Rdc_c2_e1 3 31 1.280225E-01 -Rdc_c3_e1 4 32 1.280225E-01 -Rdc_c4_e1 5 33 1.280225E-01 -Rdc_c5_e1 6 34 1.280225E-01 -Rdc_c6_e1 7 35 1.280225E-01 -Rdc_c7_e1 8 36 1.280225E-01 -Rdc_c8_e1 9 37 1.280225E-01 -Rdc_c9_e1 10 38 3.100000E-02 -Rdc_c10_e1 11 39 3.100000E-02 -Rdc_c11_e1 12 40 3.100000E-02 -Rdc_c12_e1 13 41 3.100000E-02 -Rdc_c13_e1 14 42 8.500000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.280225E-01 -Rdc_c2_e2 17 44 1.280225E-01 -Rdc_c3_e2 18 45 1.280225E-01 -Rdc_c4_e2 19 46 1.280225E-01 -Rdc_c5_e2 20 47 1.280225E-01 -Rdc_c6_e2 21 48 1.280225E-01 -Rdc_c7_e2 22 49 1.280225E-01 -Rdc_c8_e2 23 50 1.280225E-01 -Rdc_c9_e2 24 51 3.100000E-02 -Rdc_c10_e2 25 52 3.100000E-02 -Rdc_c11_e2 26 53 3.100000E-02 -Rdc_c12_e2 27 54 3.100000E-02 -Rdc_c13_e2 28 55 8.500000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.9209E-10 -RFilter_m_d1_m1_e101 428 429 1.2226E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6701E-08 -RFilter_m_d1_m1_e102 429 430 3.1007E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.9209E-10 -RFilter_m_d1_m1_e201 433 434 1.2226E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6701E-08 -RFilter_m_d1_m1_e202 434 435 3.1007E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 431 1 436 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 426 1 437 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.8574E-10 -RFilter_m_d2_m1_e101 466 467 1.2358E-01 -* -CFilter_m_d2_m1_e102 467 468 3.6258E-08 -RFilter_m_d2_m1_e102 467 468 3.1328E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.8574E-10 -RFilter_m_d2_m1_e201 471 472 1.2358E-01 -* -CFilter_m_d2_m1_e202 472 473 3.6258E-08 -RFilter_m_d2_m1_e202 472 473 3.1328E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 469 1 474 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 464 1 475 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.9373E-10 -RFilter_m_d3_m1_e101 502 503 1.8896E-01 -* -CFilter_m_d3_m1_e102 503 504 2.3036E-08 -RFilter_m_d3_m1_e102 503 504 4.9652E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.9373E-10 -RFilter_m_d3_m1_e201 507 508 1.8896E-01 -* -CFilter_m_d3_m1_e202 508 509 2.3036E-08 -RFilter_m_d3_m1_e202 508 509 4.9652E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 505 1 510 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 500 1 511 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 -RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 -RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 -RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 -RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.8574E-10 -RFilter_m_d4_m1_e101 538 539 1.2358E-01 -* -CFilter_m_d4_m1_e102 539 540 3.6258E-08 -RFilter_m_d4_m1_e102 539 540 3.1328E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.8574E-10 -RFilter_m_d4_m1_e201 543 544 1.2358E-01 -* -CFilter_m_d4_m1_e202 544 545 3.6258E-08 -RFilter_m_d4_m1_e202 544 545 3.1328E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d4_m1_e1 541 1 546 1 LTRA_T_pz_d4_m1_e1 -.MODEL LTRA_T_pz_d4_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d4_m1_e2 536 1 547 1 LTRA_T_mz_d4_m1_e2 -.MODEL LTRA_T_mz_d4_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.9209E-10 -RFilter_m_d5_m1_e101 574 575 1.2226E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6701E-08 -RFilter_m_d5_m1_e102 575 576 3.1007E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.9209E-10 -RFilter_m_d5_m1_e201 579 580 1.2226E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6701E-08 -RFilter_m_d5_m1_e202 580 581 3.1007E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d5_m1_e1 577 1 582 1 LTRA_T_pz_d5_m1_e1 -.MODEL LTRA_T_pz_d5_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d5_m1_e2 572 1 583 1 LTRA_T_mz_d5_m1_e2 -.MODEL LTRA_T_mz_d5_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.8574E-10 -RFilter_m_d6_m1_e101 610 611 1.2358E-01 -* -CFilter_m_d6_m1_e102 611 612 3.6258E-08 -RFilter_m_d6_m1_e102 611 612 3.1328E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.8574E-10 -RFilter_m_d6_m1_e201 615 616 1.2358E-01 -* -CFilter_m_d6_m1_e202 616 617 3.6258E-08 -RFilter_m_d6_m1_e202 616 617 3.1328E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d6_m1_e1 613 1 618 1 LTRA_T_pz_d6_m1_e1 -.MODEL LTRA_T_pz_d6_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d6_m1_e2 608 1 619 1 LTRA_T_mz_d6_m1_e2 -.MODEL LTRA_T_mz_d6_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.9373E-10 -RFilter_m_d7_m1_e101 646 647 1.8896E-01 -* -CFilter_m_d7_m1_e102 647 648 2.3036E-08 -RFilter_m_d7_m1_e102 647 648 4.9652E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.9373E-10 -RFilter_m_d7_m1_e201 651 652 1.8896E-01 -* -CFilter_m_d7_m1_e202 652 653 2.3036E-08 -RFilter_m_d7_m1_e202 652 653 4.9652E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d7_m1_e1 649 1 654 1 LTRA_T_pz_d7_m1_e1 -.MODEL LTRA_T_pz_d7_m1_e1 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d7_m1_e2 644 1 655 1 LTRA_T_mz_d7_m1_e2 -.MODEL LTRA_T_mz_d7_m1_e2 LTRA( R=0.0 L= 3.881938E-07 C= 3.928175E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 -RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 -RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 -RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 -RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.8574E-10 -RFilter_m_d8_m1_e101 682 683 1.2358E-01 -* -CFilter_m_d8_m1_e102 683 684 3.6258E-08 -RFilter_m_d8_m1_e102 683 684 3.1328E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.8574E-10 -RFilter_m_d8_m1_e201 687 688 1.2358E-01 -* -CFilter_m_d8_m1_e202 688 689 3.6258E-08 -RFilter_m_d8_m1_e202 688 689 3.1328E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d8_m1_e1 685 1 690 1 LTRA_T_pz_d8_m1_e1 -.MODEL LTRA_T_pz_d8_m1_e1 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d8_m1_e2 680 1 691 1 LTRA_T_mz_d8_m1_e2 -.MODEL LTRA_T_mz_d8_m1_e2 LTRA( R=0.0 L= 1.360697E-07 C= 1.070390E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 4.742867E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 4.742867E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 1.1201E-09 -RFilter_m_d9_m1_e101 762 763 6.2941E-02 -* -CFilter_m_d9_m1_e102 763 764 7.3380E-08 -RFilter_m_d9_m1_e102 763 764 1.5426E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 1.1201E-09 -RFilter_m_d9_m1_e201 767 768 6.2941E-02 -* -CFilter_m_d9_m1_e202 768 769 7.3380E-08 -RFilter_m_d9_m1_e202 768 769 1.5426E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m1_e1 765 1 770 1 LTRA_T_pz_d9_m1_e1 -.MODEL LTRA_T_pz_d9_m1_e1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m1_e2 760 1 771 1 LTRA_T_mz_d9_m1_e2 -.MODEL LTRA_T_mz_d9_m1_e2 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 4.742867E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 4.742867E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 -RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 -RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 -RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 -RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 -RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 -RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 -RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 -RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.3285E-09 -RFilter_m_d9_m2_e101 794 795 5.2739E-02 -* -CFilter_m_d9_m2_e102 795 796 8.7897E-08 -RFilter_m_d9_m2_e102 795 796 1.2807E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.3285E-09 -RFilter_m_d9_m2_e201 799 800 5.2739E-02 -* -CFilter_m_d9_m2_e202 800 801 8.7897E-08 -RFilter_m_d9_m2_e202 800 801 1.2807E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m2_e1 797 1 802 1 LTRA_T_pz_d9_m2_e1 -.MODEL LTRA_T_pz_d9_m2_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m2_e2 792 1 803 1 LTRA_T_mz_d9_m2_e2 -.MODEL LTRA_T_mz_d9_m2_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 -RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 -RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 -RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 -RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 -RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 -RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 -RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 -RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.3285E-09 -RFilter_m_d9_m3_e101 826 827 5.2739E-02 -* -CFilter_m_d9_m3_e102 827 828 8.7897E-08 -RFilter_m_d9_m3_e102 827 828 1.2807E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.3285E-09 -RFilter_m_d9_m3_e201 831 832 5.2739E-02 -* -CFilter_m_d9_m3_e202 832 833 8.7897E-08 -RFilter_m_d9_m3_e202 832 833 1.2807E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m3_e1 829 1 834 1 LTRA_T_pz_d9_m3_e1 -.MODEL LTRA_T_pz_d9_m3_e1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m3_e2 824 1 835 1 LTRA_T_mz_d9_m3_e2 -.MODEL LTRA_T_mz_d9_m3_e2 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 -RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 -RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 -RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 -RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 -RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 -RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 -RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 -RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.776751E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.776751E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 9.4177E-10 -RFilter_m_d9_m4_e101 858 859 7.5168E-02 -* -CFilter_m_d9_m4_e102 859 860 6.0964E-08 -RFilter_m_d9_m4_e102 859 860 1.8500E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 9.4177E-10 -RFilter_m_d9_m4_e201 863 864 7.5168E-02 -* -CFilter_m_d9_m4_e202 864 865 6.0964E-08 -RFilter_m_d9_m4_e202 864 865 1.8500E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d9_m4_e1 861 1 866 1 LTRA_T_pz_d9_m4_e1 -.MODEL LTRA_T_pz_d9_m4_e1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d9_m4_e2 856 1 867 1 LTRA_T_mz_d9_m4_e2 -.MODEL LTRA_T_mz_d9_m4_e2 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.776751E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.776751E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 -RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 -RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 -RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 -RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 8.051885E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 8.051885E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d10_m1_e1 893 1 894 1 LTRA_T_pz_d10_m1_e1 -.MODEL LTRA_T_pz_d10_m1_e1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d10_m1_e2 892 1 895 1 LTRA_T_mz_d10_m1_e2 -.MODEL LTRA_T_mz_d10_m1_e2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 8.051885E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 8.051885E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 3.660834E-07 C= 1.627414E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LTRA_T_pz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LTRA_T_mz_Ts_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.850775E-07 C= 8.227574E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LTRA_T_pz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LTRA_T_mz_Tv_ZT1_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_1_vm_1 LTRA( R=0.0 L= 1.810059E-07 C= 8.046571E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LTRA_T_pz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LTRA_T_mz_Ts_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LTRA_T_pz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LTRA_T_mz_Tv_ZT1_sm_2_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_2_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.982213E-07 C= 3.156845E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LTRA_T_pz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LTRA_T_mz_Ts_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 1.025900E-07 C= 1.633833E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LTRA_T_pz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LTRA_T_mz_Tv_ZT1_sm_3_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_3_vm_1 LTRA( R=0.0 L= 9.563135E-08 C= 1.523011E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 1.424126E-07 C= 4.511231E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LTRA_T_pz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LTRA_T_mz_Ts_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Ts_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 7.460498E-08 C= 2.363277E-10 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LTRA_T_pz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_pz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LTRA_T_mz_Tv_ZT1_sm_4_vm_1 -.MODEL LTRA_T_mz_Tv_ZT1_sm_4_vm_1 LTRA( R=0.0 L= 6.780760E-08 C= 2.147955E-10 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 -* -LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 -* -LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 -RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 -* -LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 -RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 5.890829E-07 C= 9.086179E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_1 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_1 LTRA( R=0.0 L= 3.142030E-07 C= 4.846354E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 -R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_2 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_2 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 -R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 6.045306E-07 C= 9.324449E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_3 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_3 LTRA( R=0.0 L= 3.296506E-07 C= 5.084623E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -O_T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_TsPTv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 6.129750E-07 C= 9.454697E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -O_T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LTRA_T_pz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -O_T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LTRA_T_mz_Ts_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Ts_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 2.748800E-07 C= 4.239825E-11 LEN= 1.000000E+00 ) -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -O_T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LTRA_T_pz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_pz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -O_T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LTRA_T_mz_Tv_ZT2_sm_1_vm_4 -.MODEL LTRA_T_mz_Tv_ZT2_sm_1_vm_4 LTRA( R=0.0 L= 3.380950E-07 C= 5.214871E-11 LEN= 1.000000E+00 ) -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 -R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib deleted file mode 100644 index 47c8e7b..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_PSpice.lib +++ /dev/null @@ -1,3786 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 3 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 4 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 5 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 6 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 7 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 8 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 9 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 10 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 11 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 12 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 13 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 14 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 15 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 16 Conductor number 1. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 1 : Twisted pair 1 wire 1 -* node: 17 Conductor number 2. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 2 : Twisted pair 1 wire 2 -* node: 18 Conductor number 3. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 3 : Twisted pair 2 wire 1 -* node: 19 Conductor number 4. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 4 : Twisted pair 2 wire 2 -* node: 20 Conductor number 5. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 5 : Twisted pair 3 wire 1 -* node: 21 Conductor number 6. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 6 : Twisted pair 3 wire 2 -* node: 22 Conductor number 7. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 7 : Twisted pair 4 wire 1 -* node: 23 Conductor number 8. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 8 : Twisted pair 4 wire 2 -* node: 24 Conductor number 9. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 9 : Inner Shield 1 -* node: 25 Conductor number 10. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 10: Inner Shield 2 -* node: 26 Conductor number 11. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 11: Inner Shield 3 -* node: 27 Conductor number 12. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 12: Inner Shield 4 -* node: 28 Conductor number 13. Cable name: SPACEWIRE_AWG_28_ESCC_3902003_V1. type: spacewire. conductor 13: Outer Shield -* node: 29 Conductor number 14. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -+ 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -+ 16 17 18 19 20 21 22 23 24 25 26 27 28 29 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 30 1.280225E-01 -Rdc_c2_e1 3 31 1.280225E-01 -Rdc_c3_e1 4 32 1.280225E-01 -Rdc_c4_e1 5 33 1.280225E-01 -Rdc_c5_e1 6 34 1.280225E-01 -Rdc_c6_e1 7 35 1.280225E-01 -Rdc_c7_e1 8 36 1.280225E-01 -Rdc_c8_e1 9 37 1.280225E-01 -Rdc_c9_e1 10 38 3.100000E-02 -Rdc_c10_e1 11 39 3.100000E-02 -Rdc_c11_e1 12 40 3.100000E-02 -Rdc_c12_e1 13 41 3.100000E-02 -Rdc_c13_e1 14 42 8.500000E-03 -Rdc_c14_e1 15 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 16 43 1.280225E-01 -Rdc_c2_e2 17 44 1.280225E-01 -Rdc_c3_e2 18 45 1.280225E-01 -Rdc_c4_e2 19 46 1.280225E-01 -Rdc_c5_e2 20 47 1.280225E-01 -Rdc_c6_e2 21 48 1.280225E-01 -Rdc_c7_e2 22 49 1.280225E-01 -Rdc_c8_e2 23 50 1.280225E-01 -Rdc_c9_e2 24 51 3.100000E-02 -Rdc_c10_e2 25 52 3.100000E-02 -Rdc_c11_e2 26 53 3.100000E-02 -Rdc_c12_e2 27 54 3.100000E-02 -Rdc_c13_e2 28 55 8.500000E-03 -Rdc_c14_e2 29 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 30 69 -Vmeas_domain_decomp_c2_e1 31 82 -Vmeas_domain_decomp_c3_e1 32 95 -Vmeas_domain_decomp_c4_e1 33 108 -Vmeas_domain_decomp_c5_e1 34 121 -Vmeas_domain_decomp_c6_e1 35 134 -Vmeas_domain_decomp_c7_e1 36 147 -Vmeas_domain_decomp_c8_e1 37 160 -Vmeas_domain_decomp_c9_e1 38 173 -Vmeas_domain_decomp_c10_e1 39 186 -Vmeas_domain_decomp_c11_e1 40 199 -Vmeas_domain_decomp_c12_e1 41 212 -Vmeas_domain_decomp_c13_e1 42 225 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 69 70 56 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 70 71 57 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 71 72 58 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 72 73 59 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 73 74 60 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 74 75 61 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 75 76 62 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 76 77 63 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 77 78 64 1 1.000000E+00 -E_domain_decomp_c1_dc10_e1 78 79 65 1 0.000000E+00 -E_domain_decomp_c1_dc11_e1 79 80 66 1 0.000000E+00 -E_domain_decomp_c1_dc12_e1 80 81 67 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e1 81 1 68 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 82 83 56 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 83 84 57 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 84 85 58 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 85 86 59 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 86 87 60 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 87 88 61 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 88 89 62 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 89 90 63 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 90 91 64 1 1.000000E+00 -E_domain_decomp_c2_dc10_e1 91 92 65 1 0.000000E+00 -E_domain_decomp_c2_dc11_e1 92 93 66 1 0.000000E+00 -E_domain_decomp_c2_dc12_e1 93 94 67 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e1 94 1 68 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 95 96 56 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 96 97 57 1 0.000000E+00 -E_domain_decomp_c3_dc3_e1 97 98 58 1 5.000000E-01 -E_domain_decomp_c3_dc4_e1 98 99 59 1 1.000000E+00 -E_domain_decomp_c3_dc5_e1 99 100 60 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 100 101 61 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 101 102 62 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 102 103 63 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 103 104 64 1 0.000000E+00 -E_domain_decomp_c3_dc10_e1 104 105 65 1 1.000000E+00 -E_domain_decomp_c3_dc11_e1 105 106 66 1 0.000000E+00 -E_domain_decomp_c3_dc12_e1 106 107 67 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e1 107 1 68 1 1.000000E+00 -E_domain_decomp_c4_dc1_e1 108 109 56 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 109 110 57 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 110 111 58 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e1 111 112 59 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 112 113 60 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 113 114 61 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 114 115 62 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 115 116 63 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 116 117 64 1 0.000000E+00 -E_domain_decomp_c4_dc10_e1 117 118 65 1 1.000000E+00 -E_domain_decomp_c4_dc11_e1 118 119 66 1 0.000000E+00 -E_domain_decomp_c4_dc12_e1 119 120 67 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e1 120 1 68 1 1.000000E+00 -E_domain_decomp_c5_dc1_e1 121 122 56 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 122 123 57 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 123 124 58 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 124 125 59 1 0.000000E+00 -E_domain_decomp_c5_dc5_e1 125 126 60 1 5.000000E-01 -E_domain_decomp_c5_dc6_e1 126 127 61 1 1.000000E+00 -E_domain_decomp_c5_dc7_e1 127 128 62 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 128 129 63 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 129 130 64 1 0.000000E+00 -E_domain_decomp_c5_dc10_e1 130 131 65 1 0.000000E+00 -E_domain_decomp_c5_dc11_e1 131 132 66 1 1.000000E+00 -E_domain_decomp_c5_dc12_e1 132 133 67 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e1 133 1 68 1 1.000000E+00 -E_domain_decomp_c6_dc1_e1 134 135 56 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 135 136 57 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 136 137 58 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 137 138 59 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 138 139 60 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e1 139 140 61 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 140 141 62 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 141 142 63 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 142 143 64 1 0.000000E+00 -E_domain_decomp_c6_dc10_e1 143 144 65 1 0.000000E+00 -E_domain_decomp_c6_dc11_e1 144 145 66 1 1.000000E+00 -E_domain_decomp_c6_dc12_e1 145 146 67 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e1 146 1 68 1 1.000000E+00 -E_domain_decomp_c7_dc1_e1 147 148 56 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 148 149 57 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 149 150 58 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 150 151 59 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 151 152 60 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 152 153 61 1 0.000000E+00 -E_domain_decomp_c7_dc7_e1 153 154 62 1 5.000000E-01 -E_domain_decomp_c7_dc8_e1 154 155 63 1 1.000000E+00 -E_domain_decomp_c7_dc9_e1 155 156 64 1 0.000000E+00 -E_domain_decomp_c7_dc10_e1 156 157 65 1 0.000000E+00 -E_domain_decomp_c7_dc11_e1 157 158 66 1 0.000000E+00 -E_domain_decomp_c7_dc12_e1 158 159 67 1 1.000000E+00 -E_domain_decomp_c7_dc13_e1 159 1 68 1 1.000000E+00 -E_domain_decomp_c8_dc1_e1 160 161 56 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 161 162 57 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 162 163 58 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 163 164 59 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 164 165 60 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 165 166 61 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 166 167 62 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e1 167 168 63 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 168 169 64 1 0.000000E+00 -E_domain_decomp_c8_dc10_e1 169 170 65 1 0.000000E+00 -E_domain_decomp_c8_dc11_e1 170 171 66 1 0.000000E+00 -E_domain_decomp_c8_dc12_e1 171 172 67 1 1.000000E+00 -E_domain_decomp_c8_dc13_e1 172 1 68 1 1.000000E+00 -E_domain_decomp_c9_dc1_e1 173 174 56 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 174 175 57 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 175 176 58 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 176 177 59 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 177 178 60 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 178 179 61 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 179 180 62 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 180 181 63 1 0.000000E+00 -E_domain_decomp_c9_dc9_e1 181 182 64 1 1.000000E+00 -E_domain_decomp_c9_dc10_e1 182 183 65 1 0.000000E+00 -E_domain_decomp_c9_dc11_e1 183 184 66 1 0.000000E+00 -E_domain_decomp_c9_dc12_e1 184 185 67 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e1 185 1 68 1 1.000000E+00 -E_domain_decomp_c10_dc1_e1 186 187 56 1 0.000000E+00 -E_domain_decomp_c10_dc2_e1 187 188 57 1 0.000000E+00 -E_domain_decomp_c10_dc3_e1 188 189 58 1 0.000000E+00 -E_domain_decomp_c10_dc4_e1 189 190 59 1 0.000000E+00 -E_domain_decomp_c10_dc5_e1 190 191 60 1 0.000000E+00 -E_domain_decomp_c10_dc6_e1 191 192 61 1 0.000000E+00 -E_domain_decomp_c10_dc7_e1 192 193 62 1 0.000000E+00 -E_domain_decomp_c10_dc8_e1 193 194 63 1 0.000000E+00 -E_domain_decomp_c10_dc9_e1 194 195 64 1 0.000000E+00 -E_domain_decomp_c10_dc10_e1 195 196 65 1 1.000000E+00 -E_domain_decomp_c10_dc11_e1 196 197 66 1 0.000000E+00 -E_domain_decomp_c10_dc12_e1 197 198 67 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e1 198 1 68 1 1.000000E+00 -E_domain_decomp_c11_dc1_e1 199 200 56 1 0.000000E+00 -E_domain_decomp_c11_dc2_e1 200 201 57 1 0.000000E+00 -E_domain_decomp_c11_dc3_e1 201 202 58 1 0.000000E+00 -E_domain_decomp_c11_dc4_e1 202 203 59 1 0.000000E+00 -E_domain_decomp_c11_dc5_e1 203 204 60 1 0.000000E+00 -E_domain_decomp_c11_dc6_e1 204 205 61 1 0.000000E+00 -E_domain_decomp_c11_dc7_e1 205 206 62 1 0.000000E+00 -E_domain_decomp_c11_dc8_e1 206 207 63 1 0.000000E+00 -E_domain_decomp_c11_dc9_e1 207 208 64 1 0.000000E+00 -E_domain_decomp_c11_dc10_e1 208 209 65 1 0.000000E+00 -E_domain_decomp_c11_dc11_e1 209 210 66 1 1.000000E+00 -E_domain_decomp_c11_dc12_e1 210 211 67 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e1 211 1 68 1 1.000000E+00 -E_domain_decomp_c12_dc1_e1 212 213 56 1 0.000000E+00 -E_domain_decomp_c12_dc2_e1 213 214 57 1 0.000000E+00 -E_domain_decomp_c12_dc3_e1 214 215 58 1 0.000000E+00 -E_domain_decomp_c12_dc4_e1 215 216 59 1 0.000000E+00 -E_domain_decomp_c12_dc5_e1 216 217 60 1 0.000000E+00 -E_domain_decomp_c12_dc6_e1 217 218 61 1 0.000000E+00 -E_domain_decomp_c12_dc7_e1 218 219 62 1 0.000000E+00 -E_domain_decomp_c12_dc8_e1 219 220 63 1 0.000000E+00 -E_domain_decomp_c12_dc9_e1 220 221 64 1 0.000000E+00 -E_domain_decomp_c12_dc10_e1 221 222 65 1 0.000000E+00 -E_domain_decomp_c12_dc11_e1 222 223 66 1 0.000000E+00 -E_domain_decomp_c12_dc12_e1 223 224 67 1 1.000000E+00 -E_domain_decomp_c12_dc13_e1 224 1 68 1 1.000000E+00 -E_domain_decomp_c13_dc1_e1 225 226 56 1 0.000000E+00 -E_domain_decomp_c13_dc2_e1 226 227 57 1 0.000000E+00 -E_domain_decomp_c13_dc3_e1 227 228 58 1 0.000000E+00 -E_domain_decomp_c13_dc4_e1 228 229 59 1 0.000000E+00 -E_domain_decomp_c13_dc5_e1 229 230 60 1 0.000000E+00 -E_domain_decomp_c13_dc6_e1 230 231 61 1 0.000000E+00 -E_domain_decomp_c13_dc7_e1 231 232 62 1 0.000000E+00 -E_domain_decomp_c13_dc8_e1 232 233 63 1 0.000000E+00 -E_domain_decomp_c13_dc9_e1 233 234 64 1 0.000000E+00 -E_domain_decomp_c13_dc10_e1 234 235 65 1 0.000000E+00 -E_domain_decomp_c13_dc11_e1 235 236 66 1 0.000000E+00 -E_domain_decomp_c13_dc12_e1 236 237 67 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e1 237 1 68 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 56 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 56 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 56 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 56 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 56 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 56 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 56 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 56 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 56 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc1_e1 1 56 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc1_e1 1 56 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc1_e1 1 56 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc1_e1 1 56 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 57 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 57 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 57 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 57 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 57 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 57 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 57 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 57 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 57 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc2_e1 1 57 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc2_e1 1 57 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc2_e1 1 57 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc2_e1 1 57 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 58 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 58 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 58 Vmeas_domain_decomp_c3_e1 5.000000E-01 -F_domain_decomp_c4_dc3_e1 1 58 Vmeas_domain_decomp_c4_e1 -5.000000E-01 -F_domain_decomp_c5_dc3_e1 1 58 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 58 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 58 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 58 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 58 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc3_e1 1 58 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc3_e1 1 58 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc3_e1 1 58 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc3_e1 1 58 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 59 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 59 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 59 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc4_e1 1 59 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 59 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 59 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 59 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 59 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 59 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc4_e1 1 59 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc4_e1 1 59 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc4_e1 1 59 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc4_e1 1 59 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 60 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 60 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 60 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 60 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 60 Vmeas_domain_decomp_c5_e1 5.000000E-01 -F_domain_decomp_c6_dc5_e1 1 60 Vmeas_domain_decomp_c6_e1 -5.000000E-01 -F_domain_decomp_c7_dc5_e1 1 60 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 60 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 60 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc5_e1 1 60 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc5_e1 1 60 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc5_e1 1 60 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc5_e1 1 60 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 61 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 61 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 61 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 61 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 61 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc6_e1 1 61 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 61 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 61 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 61 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc6_e1 1 61 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc6_e1 1 61 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc6_e1 1 61 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc6_e1 1 61 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 62 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 62 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 62 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 62 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 62 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 62 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 62 Vmeas_domain_decomp_c7_e1 5.000000E-01 -F_domain_decomp_c8_dc7_e1 1 62 Vmeas_domain_decomp_c8_e1 -5.000000E-01 -F_domain_decomp_c9_dc7_e1 1 62 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc7_e1 1 62 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc7_e1 1 62 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc7_e1 1 62 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc7_e1 1 62 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 63 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 63 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 63 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 63 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 63 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 63 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 63 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc8_e1 1 63 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 63 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc8_e1 1 63 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc8_e1 1 63 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc8_e1 1 63 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc8_e1 1 63 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 64 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc9_e1 1 64 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc9_e1 1 64 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 64 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 64 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 64 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 64 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 64 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 64 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc9_e1 1 64 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc9_e1 1 64 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc9_e1 1 64 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc9_e1 1 64 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc10_e1 1 65 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc10_e1 1 65 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc10_e1 1 65 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc10_e1 1 65 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc10_e1 1 65 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc10_e1 1 65 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc10_e1 1 65 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc10_e1 1 65 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc10_e1 1 65 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc10_e1 1 65 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc10_e1 1 65 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc10_e1 1 65 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc10_e1 1 65 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc11_e1 1 66 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc11_e1 1 66 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc11_e1 1 66 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc11_e1 1 66 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc11_e1 1 66 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc11_e1 1 66 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc11_e1 1 66 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc11_e1 1 66 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc11_e1 1 66 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc11_e1 1 66 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc11_e1 1 66 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc11_e1 1 66 Vmeas_domain_decomp_c12_e1 0.000000E+00 -F_domain_decomp_c13_dc11_e1 1 66 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc12_e1 1 67 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc12_e1 1 67 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc12_e1 1 67 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc12_e1 1 67 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc12_e1 1 67 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc12_e1 1 67 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc12_e1 1 67 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc12_e1 1 67 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc12_e1 1 67 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c10_dc12_e1 1 67 Vmeas_domain_decomp_c10_e1 0.000000E+00 -F_domain_decomp_c11_dc12_e1 1 67 Vmeas_domain_decomp_c11_e1 0.000000E+00 -F_domain_decomp_c12_dc12_e1 1 67 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc12_e1 1 67 Vmeas_domain_decomp_c13_e1 0.000000E+00 -F_domain_decomp_c1_dc13_e1 1 68 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc13_e1 1 68 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc13_e1 1 68 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc13_e1 1 68 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc13_e1 1 68 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc13_e1 1 68 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc13_e1 1 68 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc13_e1 1 68 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc13_e1 1 68 Vmeas_domain_decomp_c9_e1 1.000000E+00 -F_domain_decomp_c10_dc13_e1 1 68 Vmeas_domain_decomp_c10_e1 1.000000E+00 -F_domain_decomp_c11_dc13_e1 1 68 Vmeas_domain_decomp_c11_e1 1.000000E+00 -F_domain_decomp_c12_dc13_e1 1 68 Vmeas_domain_decomp_c12_e1 1.000000E+00 -F_domain_decomp_c13_dc13_e1 1 68 Vmeas_domain_decomp_c13_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 43 251 -Vmeas_domain_decomp_c2_e2 44 264 -Vmeas_domain_decomp_c3_e2 45 277 -Vmeas_domain_decomp_c4_e2 46 290 -Vmeas_domain_decomp_c5_e2 47 303 -Vmeas_domain_decomp_c6_e2 48 316 -Vmeas_domain_decomp_c7_e2 49 329 -Vmeas_domain_decomp_c8_e2 50 342 -Vmeas_domain_decomp_c9_e2 51 355 -Vmeas_domain_decomp_c10_e2 52 368 -Vmeas_domain_decomp_c11_e2 53 381 -Vmeas_domain_decomp_c12_e2 54 394 -Vmeas_domain_decomp_c13_e2 55 407 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 251 252 238 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 252 253 239 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 253 254 240 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 254 255 241 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 255 256 242 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 256 257 243 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 257 258 244 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 258 259 245 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 259 260 246 1 1.000000E+00 -E_domain_decomp_c1_dc10_e2 260 261 247 1 0.000000E+00 -E_domain_decomp_c1_dc11_e2 261 262 248 1 0.000000E+00 -E_domain_decomp_c1_dc12_e2 262 263 249 1 -0.000000E+00 -E_domain_decomp_c1_dc13_e2 263 1 250 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 264 265 238 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 265 266 239 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 266 267 240 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 267 268 241 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 268 269 242 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 269 270 243 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 270 271 244 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 271 272 245 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 272 273 246 1 1.000000E+00 -E_domain_decomp_c2_dc10_e2 273 274 247 1 0.000000E+00 -E_domain_decomp_c2_dc11_e2 274 275 248 1 0.000000E+00 -E_domain_decomp_c2_dc12_e2 275 276 249 1 -0.000000E+00 -E_domain_decomp_c2_dc13_e2 276 1 250 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 277 278 238 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 278 279 239 1 0.000000E+00 -E_domain_decomp_c3_dc3_e2 279 280 240 1 5.000000E-01 -E_domain_decomp_c3_dc4_e2 280 281 241 1 1.000000E+00 -E_domain_decomp_c3_dc5_e2 281 282 242 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 282 283 243 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 283 284 244 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 284 285 245 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 285 286 246 1 0.000000E+00 -E_domain_decomp_c3_dc10_e2 286 287 247 1 1.000000E+00 -E_domain_decomp_c3_dc11_e2 287 288 248 1 0.000000E+00 -E_domain_decomp_c3_dc12_e2 288 289 249 1 -0.000000E+00 -E_domain_decomp_c3_dc13_e2 289 1 250 1 1.000000E+00 -E_domain_decomp_c4_dc1_e2 290 291 238 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 291 292 239 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 292 293 240 1 -5.000000E-01 -E_domain_decomp_c4_dc4_e2 293 294 241 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 294 295 242 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 295 296 243 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 296 297 244 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 297 298 245 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 298 299 246 1 0.000000E+00 -E_domain_decomp_c4_dc10_e2 299 300 247 1 1.000000E+00 -E_domain_decomp_c4_dc11_e2 300 301 248 1 0.000000E+00 -E_domain_decomp_c4_dc12_e2 301 302 249 1 -0.000000E+00 -E_domain_decomp_c4_dc13_e2 302 1 250 1 1.000000E+00 -E_domain_decomp_c5_dc1_e2 303 304 238 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 304 305 239 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 305 306 240 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 306 307 241 1 0.000000E+00 -E_domain_decomp_c5_dc5_e2 307 308 242 1 5.000000E-01 -E_domain_decomp_c5_dc6_e2 308 309 243 1 1.000000E+00 -E_domain_decomp_c5_dc7_e2 309 310 244 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 310 311 245 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 311 312 246 1 0.000000E+00 -E_domain_decomp_c5_dc10_e2 312 313 247 1 0.000000E+00 -E_domain_decomp_c5_dc11_e2 313 314 248 1 1.000000E+00 -E_domain_decomp_c5_dc12_e2 314 315 249 1 -0.000000E+00 -E_domain_decomp_c5_dc13_e2 315 1 250 1 1.000000E+00 -E_domain_decomp_c6_dc1_e2 316 317 238 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 317 318 239 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 318 319 240 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 319 320 241 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 320 321 242 1 -5.000000E-01 -E_domain_decomp_c6_dc6_e2 321 322 243 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 322 323 244 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 323 324 245 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 324 325 246 1 0.000000E+00 -E_domain_decomp_c6_dc10_e2 325 326 247 1 0.000000E+00 -E_domain_decomp_c6_dc11_e2 326 327 248 1 1.000000E+00 -E_domain_decomp_c6_dc12_e2 327 328 249 1 -0.000000E+00 -E_domain_decomp_c6_dc13_e2 328 1 250 1 1.000000E+00 -E_domain_decomp_c7_dc1_e2 329 330 238 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 330 331 239 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 331 332 240 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 332 333 241 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 333 334 242 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 334 335 243 1 0.000000E+00 -E_domain_decomp_c7_dc7_e2 335 336 244 1 5.000000E-01 -E_domain_decomp_c7_dc8_e2 336 337 245 1 1.000000E+00 -E_domain_decomp_c7_dc9_e2 337 338 246 1 0.000000E+00 -E_domain_decomp_c7_dc10_e2 338 339 247 1 0.000000E+00 -E_domain_decomp_c7_dc11_e2 339 340 248 1 0.000000E+00 -E_domain_decomp_c7_dc12_e2 340 341 249 1 1.000000E+00 -E_domain_decomp_c7_dc13_e2 341 1 250 1 1.000000E+00 -E_domain_decomp_c8_dc1_e2 342 343 238 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 343 344 239 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 344 345 240 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 345 346 241 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 346 347 242 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 347 348 243 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 348 349 244 1 -5.000000E-01 -E_domain_decomp_c8_dc8_e2 349 350 245 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 350 351 246 1 0.000000E+00 -E_domain_decomp_c8_dc10_e2 351 352 247 1 0.000000E+00 -E_domain_decomp_c8_dc11_e2 352 353 248 1 0.000000E+00 -E_domain_decomp_c8_dc12_e2 353 354 249 1 1.000000E+00 -E_domain_decomp_c8_dc13_e2 354 1 250 1 1.000000E+00 -E_domain_decomp_c9_dc1_e2 355 356 238 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 356 357 239 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 357 358 240 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 358 359 241 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 359 360 242 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 360 361 243 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 361 362 244 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 362 363 245 1 0.000000E+00 -E_domain_decomp_c9_dc9_e2 363 364 246 1 1.000000E+00 -E_domain_decomp_c9_dc10_e2 364 365 247 1 0.000000E+00 -E_domain_decomp_c9_dc11_e2 365 366 248 1 0.000000E+00 -E_domain_decomp_c9_dc12_e2 366 367 249 1 -0.000000E+00 -E_domain_decomp_c9_dc13_e2 367 1 250 1 1.000000E+00 -E_domain_decomp_c10_dc1_e2 368 369 238 1 0.000000E+00 -E_domain_decomp_c10_dc2_e2 369 370 239 1 0.000000E+00 -E_domain_decomp_c10_dc3_e2 370 371 240 1 0.000000E+00 -E_domain_decomp_c10_dc4_e2 371 372 241 1 0.000000E+00 -E_domain_decomp_c10_dc5_e2 372 373 242 1 0.000000E+00 -E_domain_decomp_c10_dc6_e2 373 374 243 1 0.000000E+00 -E_domain_decomp_c10_dc7_e2 374 375 244 1 0.000000E+00 -E_domain_decomp_c10_dc8_e2 375 376 245 1 0.000000E+00 -E_domain_decomp_c10_dc9_e2 376 377 246 1 0.000000E+00 -E_domain_decomp_c10_dc10_e2 377 378 247 1 1.000000E+00 -E_domain_decomp_c10_dc11_e2 378 379 248 1 0.000000E+00 -E_domain_decomp_c10_dc12_e2 379 380 249 1 -0.000000E+00 -E_domain_decomp_c10_dc13_e2 380 1 250 1 1.000000E+00 -E_domain_decomp_c11_dc1_e2 381 382 238 1 0.000000E+00 -E_domain_decomp_c11_dc2_e2 382 383 239 1 0.000000E+00 -E_domain_decomp_c11_dc3_e2 383 384 240 1 0.000000E+00 -E_domain_decomp_c11_dc4_e2 384 385 241 1 0.000000E+00 -E_domain_decomp_c11_dc5_e2 385 386 242 1 0.000000E+00 -E_domain_decomp_c11_dc6_e2 386 387 243 1 0.000000E+00 -E_domain_decomp_c11_dc7_e2 387 388 244 1 0.000000E+00 -E_domain_decomp_c11_dc8_e2 388 389 245 1 0.000000E+00 -E_domain_decomp_c11_dc9_e2 389 390 246 1 0.000000E+00 -E_domain_decomp_c11_dc10_e2 390 391 247 1 0.000000E+00 -E_domain_decomp_c11_dc11_e2 391 392 248 1 1.000000E+00 -E_domain_decomp_c11_dc12_e2 392 393 249 1 -0.000000E+00 -E_domain_decomp_c11_dc13_e2 393 1 250 1 1.000000E+00 -E_domain_decomp_c12_dc1_e2 394 395 238 1 0.000000E+00 -E_domain_decomp_c12_dc2_e2 395 396 239 1 0.000000E+00 -E_domain_decomp_c12_dc3_e2 396 397 240 1 0.000000E+00 -E_domain_decomp_c12_dc4_e2 397 398 241 1 0.000000E+00 -E_domain_decomp_c12_dc5_e2 398 399 242 1 0.000000E+00 -E_domain_decomp_c12_dc6_e2 399 400 243 1 0.000000E+00 -E_domain_decomp_c12_dc7_e2 400 401 244 1 0.000000E+00 -E_domain_decomp_c12_dc8_e2 401 402 245 1 0.000000E+00 -E_domain_decomp_c12_dc9_e2 402 403 246 1 0.000000E+00 -E_domain_decomp_c12_dc10_e2 403 404 247 1 0.000000E+00 -E_domain_decomp_c12_dc11_e2 404 405 248 1 0.000000E+00 -E_domain_decomp_c12_dc12_e2 405 406 249 1 1.000000E+00 -E_domain_decomp_c12_dc13_e2 406 1 250 1 1.000000E+00 -E_domain_decomp_c13_dc1_e2 407 408 238 1 0.000000E+00 -E_domain_decomp_c13_dc2_e2 408 409 239 1 0.000000E+00 -E_domain_decomp_c13_dc3_e2 409 410 240 1 0.000000E+00 -E_domain_decomp_c13_dc4_e2 410 411 241 1 0.000000E+00 -E_domain_decomp_c13_dc5_e2 411 412 242 1 0.000000E+00 -E_domain_decomp_c13_dc6_e2 412 413 243 1 0.000000E+00 -E_domain_decomp_c13_dc7_e2 413 414 244 1 0.000000E+00 -E_domain_decomp_c13_dc8_e2 414 415 245 1 0.000000E+00 -E_domain_decomp_c13_dc9_e2 415 416 246 1 0.000000E+00 -E_domain_decomp_c13_dc10_e2 416 417 247 1 0.000000E+00 -E_domain_decomp_c13_dc11_e2 417 418 248 1 0.000000E+00 -E_domain_decomp_c13_dc12_e2 418 419 249 1 -0.000000E+00 -E_domain_decomp_c13_dc13_e2 419 1 250 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 238 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 238 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 238 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 238 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 238 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 238 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 238 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 238 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 238 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc1_e2 1 238 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc1_e2 1 238 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc1_e2 1 238 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc1_e2 1 238 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 239 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 239 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 239 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 239 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 239 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 239 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 239 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 239 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 239 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc2_e2 1 239 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc2_e2 1 239 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc2_e2 1 239 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc2_e2 1 239 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 240 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 240 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 240 Vmeas_domain_decomp_c3_e2 5.000000E-01 -F_domain_decomp_c4_dc3_e2 1 240 Vmeas_domain_decomp_c4_e2 -5.000000E-01 -F_domain_decomp_c5_dc3_e2 1 240 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 240 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 240 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 240 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 240 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc3_e2 1 240 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc3_e2 1 240 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc3_e2 1 240 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc3_e2 1 240 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 241 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 241 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 241 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc4_e2 1 241 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 241 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 241 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 241 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 241 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 241 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc4_e2 1 241 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc4_e2 1 241 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc4_e2 1 241 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc4_e2 1 241 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 242 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 242 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 242 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 242 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 242 Vmeas_domain_decomp_c5_e2 5.000000E-01 -F_domain_decomp_c6_dc5_e2 1 242 Vmeas_domain_decomp_c6_e2 -5.000000E-01 -F_domain_decomp_c7_dc5_e2 1 242 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 242 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 242 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc5_e2 1 242 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc5_e2 1 242 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc5_e2 1 242 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc5_e2 1 242 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 243 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 243 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 243 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 243 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 243 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc6_e2 1 243 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 243 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 243 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 243 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc6_e2 1 243 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc6_e2 1 243 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc6_e2 1 243 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc6_e2 1 243 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 244 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 244 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 244 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 244 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 244 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 244 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 244 Vmeas_domain_decomp_c7_e2 5.000000E-01 -F_domain_decomp_c8_dc7_e2 1 244 Vmeas_domain_decomp_c8_e2 -5.000000E-01 -F_domain_decomp_c9_dc7_e2 1 244 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc7_e2 1 244 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc7_e2 1 244 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc7_e2 1 244 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc7_e2 1 244 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 245 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 245 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 245 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 245 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 245 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 245 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 245 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc8_e2 1 245 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 245 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc8_e2 1 245 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc8_e2 1 245 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc8_e2 1 245 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc8_e2 1 245 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 246 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc9_e2 1 246 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc9_e2 1 246 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 246 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 246 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 246 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 246 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 246 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 246 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc9_e2 1 246 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc9_e2 1 246 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc9_e2 1 246 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc9_e2 1 246 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc10_e2 1 247 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc10_e2 1 247 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc10_e2 1 247 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc10_e2 1 247 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc10_e2 1 247 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc10_e2 1 247 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc10_e2 1 247 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc10_e2 1 247 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc10_e2 1 247 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc10_e2 1 247 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc10_e2 1 247 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc10_e2 1 247 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc10_e2 1 247 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc11_e2 1 248 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc11_e2 1 248 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc11_e2 1 248 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc11_e2 1 248 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc11_e2 1 248 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc11_e2 1 248 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc11_e2 1 248 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc11_e2 1 248 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc11_e2 1 248 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc11_e2 1 248 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc11_e2 1 248 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc11_e2 1 248 Vmeas_domain_decomp_c12_e2 0.000000E+00 -F_domain_decomp_c13_dc11_e2 1 248 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc12_e2 1 249 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc12_e2 1 249 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc12_e2 1 249 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc12_e2 1 249 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc12_e2 1 249 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc12_e2 1 249 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc12_e2 1 249 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc12_e2 1 249 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc12_e2 1 249 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c10_dc12_e2 1 249 Vmeas_domain_decomp_c10_e2 0.000000E+00 -F_domain_decomp_c11_dc12_e2 1 249 Vmeas_domain_decomp_c11_e2 0.000000E+00 -F_domain_decomp_c12_dc12_e2 1 249 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc12_e2 1 249 Vmeas_domain_decomp_c13_e2 0.000000E+00 -F_domain_decomp_c1_dc13_e2 1 250 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc13_e2 1 250 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc13_e2 1 250 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc13_e2 1 250 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc13_e2 1 250 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc13_e2 1 250 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc13_e2 1 250 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc13_e2 1 250 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc13_e2 1 250 Vmeas_domain_decomp_c9_e2 1.000000E+00 -F_domain_decomp_c10_dc13_e2 1 250 Vmeas_domain_decomp_c10_e2 1.000000E+00 -F_domain_decomp_c11_dc13_e2 1 250 Vmeas_domain_decomp_c11_e2 1.000000E+00 -F_domain_decomp_c12_dc13_e2 1 250 Vmeas_domain_decomp_c12_e2 1.000000E+00 -F_domain_decomp_c13_dc13_e2 1 250 Vmeas_domain_decomp_c13_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 56 421 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 421 1 420 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 420 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 238 423 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 423 1 422 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 422 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 420 424 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 422 425 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 428 426 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 428 429 5.9209E-10 -RFilter_m_d1_m1_e101 428 429 1.2226E-01 -* -CFilter_m_d1_m1_e102 429 430 3.6701E-08 -RFilter_m_d1_m1_e102 429 430 3.1007E-02 -* -RFilter_m_d1_m1_e103 430 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 424 1 428 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 433 431 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 433 434 5.9209E-10 -RFilter_m_d1_m1_e201 433 434 1.2226E-01 -* -CFilter_m_d1_m1_e202 434 435 3.6701E-08 -RFilter_m_d1_m1_e202 434 435 3.1007E-02 -* -RFilter_m_d1_m1_e203 435 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 425 1 433 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 431 1 436 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 426 1 437 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 431 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 426 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 440 420 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 440 441 5.9209E-10 -RFilter_m_pz_d1_m1_e101 440 441 1.2226E-01 -* -CFilter_m_pz_d1_m1_e102 441 442 3.6701E-08 -RFilter_m_pz_d1_m1_e102 441 442 3.1007E-02 -* -RFilter_m_pz_d1_m1_e103 442 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 436 438 440 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 444 424 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 444 445 5.9209E-10 -RFilter_m_pz_d1_m1_e201 444 445 1.2226E-01 -* -CFilter_m_pz_d1_m1_e202 445 446 3.6701E-08 -RFilter_m_pz_d1_m1_e202 445 446 3.1007E-02 -* -RFilter_m_pz_d1_m1_e203 446 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 438 1 444 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 449 422 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 449 450 5.9209E-10 -RFilter_m_mz_d1_m1_e101 449 450 1.2226E-01 -* -CFilter_m_mz_d1_m1_e102 450 451 3.6701E-08 -RFilter_m_mz_d1_m1_e102 450 451 3.1007E-02 -* -RFilter_m_mz_d1_m1_e103 451 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 437 447 449 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 453 425 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 453 454 5.9209E-10 -RFilter_m_mz_d1_m1_e201 453 454 1.2226E-01 -* -CFilter_m_mz_d1_m1_e202 454 455 3.6701E-08 -RFilter_m_mz_d1_m1_e202 454 455 3.1007E-02 -* -RFilter_m_mz_d1_m1_e203 455 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 447 1 453 1 -8.671014E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 57 457 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 457 1 456 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 456 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 239 459 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 459 1 458 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 458 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 456 462 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 458 463 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 466 464 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 466 467 5.8574E-10 -RFilter_m_d2_m1_e101 466 467 1.2358E-01 -* -CFilter_m_d2_m1_e102 467 468 3.6258E-08 -RFilter_m_d2_m1_e102 467 468 3.1328E-02 -* -RFilter_m_d2_m1_e103 468 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 462 460 466 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 471 469 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 471 472 5.8574E-10 -RFilter_m_d2_m1_e201 471 472 1.2358E-01 -* -CFilter_m_d2_m1_e202 472 473 3.6258E-08 -RFilter_m_d2_m1_e202 472 473 3.1328E-02 -* -RFilter_m_d2_m1_e203 473 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 463 461 471 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 469 1 474 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 464 1 475 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 469 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 464 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 478 456 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 478 479 5.8574E-10 -RFilter_m_pz_d2_m1_e101 478 479 1.2358E-01 -* -CFilter_m_pz_d2_m1_e102 479 480 3.6258E-08 -RFilter_m_pz_d2_m1_e102 479 480 3.1328E-02 -* -RFilter_m_pz_d2_m1_e103 480 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 474 476 478 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 482 462 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 482 483 5.8574E-10 -RFilter_m_pz_d2_m1_e201 482 483 1.2358E-01 -* -CFilter_m_pz_d2_m1_e202 483 484 3.6258E-08 -RFilter_m_pz_d2_m1_e202 483 484 3.1328E-02 -* -RFilter_m_pz_d2_m1_e203 484 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 476 1 482 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 487 458 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 487 488 5.8574E-10 -RFilter_m_mz_d2_m1_e101 487 488 1.2358E-01 -* -CFilter_m_mz_d2_m1_e102 488 489 3.6258E-08 -RFilter_m_mz_d2_m1_e102 488 489 3.1328E-02 -* -RFilter_m_mz_d2_m1_e103 489 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 475 485 487 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 491 463 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 491 492 5.8574E-10 -RFilter_m_mz_d2_m1_e201 491 492 1.2358E-01 -* -CFilter_m_mz_d2_m1_e202 492 493 3.6258E-08 -RFilter_m_mz_d2_m1_e202 492 493 3.1328E-02 -* -RFilter_m_mz_d2_m1_e203 493 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 485 1 491 1 -8.658669E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 58 495 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 495 1 494 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 494 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 240 497 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 497 1 496 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 496 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 494 498 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 496 499 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 502 500 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 502 503 3.9373E-10 -RFilter_m_d3_m1_e101 502 503 1.8896E-01 -* -CFilter_m_d3_m1_e102 503 504 2.3036E-08 -RFilter_m_d3_m1_e102 503 504 4.9652E-02 -* -RFilter_m_d3_m1_e103 504 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 498 1 502 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 507 505 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 507 508 3.9373E-10 -RFilter_m_d3_m1_e201 507 508 1.8896E-01 -* -CFilter_m_d3_m1_e202 508 509 2.3036E-08 -RFilter_m_d3_m1_e202 508 509 4.9652E-02 -* -RFilter_m_d3_m1_e203 509 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 499 1 507 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 505 1 510 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 500 1 511 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 505 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 500 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 514 494 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 514 515 3.9373E-10 -RFilter_m_pz_d3_m1_e101 514 515 1.8896E-01 -* -CFilter_m_pz_d3_m1_e102 515 516 2.3036E-08 -RFilter_m_pz_d3_m1_e102 515 516 4.9652E-02 -* -RFilter_m_pz_d3_m1_e103 516 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 510 512 514 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 518 498 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 518 519 3.9373E-10 -RFilter_m_pz_d3_m1_e201 518 519 1.8896E-01 -* -CFilter_m_pz_d3_m1_e202 519 520 2.3036E-08 -RFilter_m_pz_d3_m1_e202 519 520 4.9652E-02 -* -RFilter_m_pz_d3_m1_e203 520 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 512 1 518 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 523 496 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 523 524 3.9373E-10 -RFilter_m_mz_d3_m1_e101 523 524 1.8896E-01 -* -CFilter_m_mz_d3_m1_e102 524 525 2.3036E-08 -RFilter_m_mz_d3_m1_e102 524 525 4.9652E-02 -* -RFilter_m_mz_d3_m1_e103 525 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 511 521 523 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 527 499 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 527 528 3.9373E-10 -RFilter_m_mz_d3_m1_e201 527 528 1.8896E-01 -* -CFilter_m_mz_d3_m1_e202 528 529 2.3036E-08 -RFilter_m_mz_d3_m1_e202 528 529 4.9652E-02 -* -RFilter_m_mz_d3_m1_e203 529 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 521 1 527 1 -8.073541E-01 -* -* -* DOMAIN 4 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e1 59 531 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e1 531 1 530 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e1 1 530 Vmeas_mode_decomp_d4_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d4_c1_e2 241 533 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d4_c1_m1_e2 533 1 532 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d4_c1_m1_e2 1 532 Vmeas_mode_decomp_d4_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d4_m1_e1 530 534 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d4_m1_e2 532 535 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e1 1 538 536 1 1.000000E+00 -* -CFilter_m_d4_m1_e101 538 539 5.8574E-10 -RFilter_m_d4_m1_e101 538 539 1.2358E-01 -* -CFilter_m_d4_m1_e102 539 540 3.6258E-08 -RFilter_m_d4_m1_e102 539 540 3.1328E-02 -* -RFilter_m_d4_m1_e103 540 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e1 534 1 538 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d4_m1_e2 1 543 541 1 1.000000E+00 -* -CFilter_m_d4_m1_e201 543 544 5.8574E-10 -RFilter_m_d4_m1_e201 543 544 1.2358E-01 -* -CFilter_m_d4_m1_e202 544 545 3.6258E-08 -RFilter_m_d4_m1_e202 544 545 3.1328E-02 -* -RFilter_m_d4_m1_e203 545 1 1.0000E+00 -* -* -ES2_Filter_m_d4_m1_e2 535 1 543 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d4_m1_e1 541 1 546 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Delay line for negative z propagation -* -T_mz_d4_m1_e2 536 1 547 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d4_m1_e1 541 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d4_m1_e2 536 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e1 1 550 530 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e101 550 551 5.8574E-10 -RFilter_m_pz_d4_m1_e101 550 551 1.2358E-01 -* -CFilter_m_pz_d4_m1_e102 551 552 3.6258E-08 -RFilter_m_pz_d4_m1_e102 551 552 3.1328E-02 -* -RFilter_m_pz_d4_m1_e103 552 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e1 546 548 550 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d4_m1_e2 1 554 534 1 1.000000E+00 -* -CFilter_m_pz_d4_m1_e201 554 555 5.8574E-10 -RFilter_m_pz_d4_m1_e201 554 555 1.2358E-01 -* -CFilter_m_pz_d4_m1_e202 555 556 3.6258E-08 -RFilter_m_pz_d4_m1_e202 555 556 3.1328E-02 -* -RFilter_m_pz_d4_m1_e203 556 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d4_m1_e2 548 1 554 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e1 1 559 532 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e101 559 560 5.8574E-10 -RFilter_m_mz_d4_m1_e101 559 560 1.2358E-01 -* -CFilter_m_mz_d4_m1_e102 560 561 3.6258E-08 -RFilter_m_mz_d4_m1_e102 560 561 3.1328E-02 -* -RFilter_m_mz_d4_m1_e103 561 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e1 547 557 559 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d4_m1_e2 1 563 535 1 1.000000E+00 -* -CFilter_m_mz_d4_m1_e201 563 564 5.8574E-10 -RFilter_m_mz_d4_m1_e201 563 564 1.2358E-01 -* -CFilter_m_mz_d4_m1_e202 564 565 3.6258E-08 -RFilter_m_mz_d4_m1_e202 564 565 3.1328E-02 -* -RFilter_m_mz_d4_m1_e203 565 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d4_m1_e2 557 1 563 1 -8.658669E-01 -* -* -* DOMAIN 5 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e1 60 567 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e1 567 1 566 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e1 1 566 Vmeas_mode_decomp_d5_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d5_c1_e2 242 569 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d5_c1_m1_e2 569 1 568 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d5_c1_m1_e2 1 568 Vmeas_mode_decomp_d5_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d5_m1_e1 566 570 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d5_m1_e2 568 571 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e1 1 574 572 1 1.000000E+00 -* -CFilter_m_d5_m1_e101 574 575 5.9209E-10 -RFilter_m_d5_m1_e101 574 575 1.2226E-01 -* -CFilter_m_d5_m1_e102 575 576 3.6701E-08 -RFilter_m_d5_m1_e102 575 576 3.1007E-02 -* -RFilter_m_d5_m1_e103 576 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e1 570 1 574 1 8.671014E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d5_m1_e2 1 579 577 1 1.000000E+00 -* -CFilter_m_d5_m1_e201 579 580 5.9209E-10 -RFilter_m_d5_m1_e201 579 580 1.2226E-01 -* -CFilter_m_d5_m1_e202 580 581 3.6701E-08 -RFilter_m_d5_m1_e202 580 581 3.1007E-02 -* -RFilter_m_d5_m1_e203 581 1 1.0000E+00 -* -* -ES2_Filter_m_d5_m1_e2 571 1 579 1 8.671014E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d5_m1_e1 577 1 582 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Delay line for negative z propagation -* -T_mz_d5_m1_e2 572 1 583 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d5_m1_e1 577 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d5_m1_e2 572 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e1 1 586 566 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e101 586 587 5.9209E-10 -RFilter_m_pz_d5_m1_e101 586 587 1.2226E-01 -* -CFilter_m_pz_d5_m1_e102 587 588 3.6701E-08 -RFilter_m_pz_d5_m1_e102 587 588 3.1007E-02 -* -RFilter_m_pz_d5_m1_e103 588 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e1 582 584 586 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d5_m1_e2 1 590 570 1 1.000000E+00 -* -CFilter_m_pz_d5_m1_e201 590 591 5.9209E-10 -RFilter_m_pz_d5_m1_e201 590 591 1.2226E-01 -* -CFilter_m_pz_d5_m1_e202 591 592 3.6701E-08 -RFilter_m_pz_d5_m1_e202 591 592 3.1007E-02 -* -RFilter_m_pz_d5_m1_e203 592 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d5_m1_e2 584 1 590 1 -8.671014E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e1 1 595 568 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e101 595 596 5.9209E-10 -RFilter_m_mz_d5_m1_e101 595 596 1.2226E-01 -* -CFilter_m_mz_d5_m1_e102 596 597 3.6701E-08 -RFilter_m_mz_d5_m1_e102 596 597 3.1007E-02 -* -RFilter_m_mz_d5_m1_e103 597 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e1 583 593 595 1 1.734203E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d5_m1_e2 1 599 571 1 1.000000E+00 -* -CFilter_m_mz_d5_m1_e201 599 600 5.9209E-10 -RFilter_m_mz_d5_m1_e201 599 600 1.2226E-01 -* -CFilter_m_mz_d5_m1_e202 600 601 3.6701E-08 -RFilter_m_mz_d5_m1_e202 600 601 3.1007E-02 -* -RFilter_m_mz_d5_m1_e203 601 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d5_m1_e2 593 1 599 1 -8.671014E-01 -* -* -* DOMAIN 6 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e1 61 603 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e1 603 1 602 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e1 1 602 Vmeas_mode_decomp_d6_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d6_c1_e2 243 605 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d6_c1_m1_e2 605 1 604 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d6_c1_m1_e2 1 604 Vmeas_mode_decomp_d6_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d6_m1_e1 602 606 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d6_m1_e2 604 607 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e1 1 610 608 1 1.000000E+00 -* -CFilter_m_d6_m1_e101 610 611 5.8574E-10 -RFilter_m_d6_m1_e101 610 611 1.2358E-01 -* -CFilter_m_d6_m1_e102 611 612 3.6258E-08 -RFilter_m_d6_m1_e102 611 612 3.1328E-02 -* -RFilter_m_d6_m1_e103 612 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e1 606 1 610 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d6_m1_e2 1 615 613 1 1.000000E+00 -* -CFilter_m_d6_m1_e201 615 616 5.8574E-10 -RFilter_m_d6_m1_e201 615 616 1.2358E-01 -* -CFilter_m_d6_m1_e202 616 617 3.6258E-08 -RFilter_m_d6_m1_e202 616 617 3.1328E-02 -* -RFilter_m_d6_m1_e203 617 1 1.0000E+00 -* -* -ES2_Filter_m_d6_m1_e2 607 1 615 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d6_m1_e1 613 1 618 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Delay line for negative z propagation -* -T_mz_d6_m1_e2 608 1 619 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d6_m1_e1 613 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d6_m1_e2 608 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e1 1 622 602 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e101 622 623 5.8574E-10 -RFilter_m_pz_d6_m1_e101 622 623 1.2358E-01 -* -CFilter_m_pz_d6_m1_e102 623 624 3.6258E-08 -RFilter_m_pz_d6_m1_e102 623 624 3.1328E-02 -* -RFilter_m_pz_d6_m1_e103 624 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e1 618 620 622 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d6_m1_e2 1 626 606 1 1.000000E+00 -* -CFilter_m_pz_d6_m1_e201 626 627 5.8574E-10 -RFilter_m_pz_d6_m1_e201 626 627 1.2358E-01 -* -CFilter_m_pz_d6_m1_e202 627 628 3.6258E-08 -RFilter_m_pz_d6_m1_e202 627 628 3.1328E-02 -* -RFilter_m_pz_d6_m1_e203 628 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d6_m1_e2 620 1 626 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e1 1 631 604 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e101 631 632 5.8574E-10 -RFilter_m_mz_d6_m1_e101 631 632 1.2358E-01 -* -CFilter_m_mz_d6_m1_e102 632 633 3.6258E-08 -RFilter_m_mz_d6_m1_e102 632 633 3.1328E-02 -* -RFilter_m_mz_d6_m1_e103 633 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e1 619 629 631 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d6_m1_e2 1 635 607 1 1.000000E+00 -* -CFilter_m_mz_d6_m1_e201 635 636 5.8574E-10 -RFilter_m_mz_d6_m1_e201 635 636 1.2358E-01 -* -CFilter_m_mz_d6_m1_e202 636 637 3.6258E-08 -RFilter_m_mz_d6_m1_e202 636 637 3.1328E-02 -* -RFilter_m_mz_d6_m1_e203 637 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d6_m1_e2 629 1 635 1 -8.658669E-01 -* -* -* DOMAIN 7 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e1 62 639 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e1 639 1 638 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e1 1 638 Vmeas_mode_decomp_d7_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d7_c1_e2 244 641 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d7_c1_m1_e2 641 1 640 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d7_c1_m1_e2 1 640 Vmeas_mode_decomp_d7_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d7_m1_e1 638 642 9.940973E+01 -* -* Modal impedance: end2 -* -RZCm_d7_m1_e2 640 643 9.940973E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e1 1 646 644 1 1.000000E+00 -* -CFilter_m_d7_m1_e101 646 647 3.9373E-10 -RFilter_m_d7_m1_e101 646 647 1.8896E-01 -* -CFilter_m_d7_m1_e102 647 648 2.3036E-08 -RFilter_m_d7_m1_e102 647 648 4.9652E-02 -* -RFilter_m_d7_m1_e103 648 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e1 642 1 646 1 8.073541E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d7_m1_e2 1 651 649 1 1.000000E+00 -* -CFilter_m_d7_m1_e201 651 652 3.9373E-10 -RFilter_m_d7_m1_e201 651 652 1.8896E-01 -* -CFilter_m_d7_m1_e202 652 653 2.3036E-08 -RFilter_m_d7_m1_e202 652 653 4.9652E-02 -* -RFilter_m_d7_m1_e203 653 1 1.0000E+00 -* -* -ES2_Filter_m_d7_m1_e2 643 1 651 1 8.073541E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d7_m1_e1 649 1 654 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Delay line for negative z propagation -* -T_mz_d7_m1_e2 644 1 655 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.881938E-07 G=0.0 C= 3.928175E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d7_m1_e1 649 1 9.940973E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d7_m1_e2 644 1 9.940973E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e1 1 658 638 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e101 658 659 3.9373E-10 -RFilter_m_pz_d7_m1_e101 658 659 1.8896E-01 -* -CFilter_m_pz_d7_m1_e102 659 660 2.3036E-08 -RFilter_m_pz_d7_m1_e102 659 660 4.9652E-02 -* -RFilter_m_pz_d7_m1_e103 660 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e1 654 656 658 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d7_m1_e2 1 662 642 1 1.000000E+00 -* -CFilter_m_pz_d7_m1_e201 662 663 3.9373E-10 -RFilter_m_pz_d7_m1_e201 662 663 1.8896E-01 -* -CFilter_m_pz_d7_m1_e202 663 664 2.3036E-08 -RFilter_m_pz_d7_m1_e202 663 664 4.9652E-02 -* -RFilter_m_pz_d7_m1_e203 664 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d7_m1_e2 656 1 662 1 -8.073541E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e1 1 667 640 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e101 667 668 3.9373E-10 -RFilter_m_mz_d7_m1_e101 667 668 1.8896E-01 -* -CFilter_m_mz_d7_m1_e102 668 669 2.3036E-08 -RFilter_m_mz_d7_m1_e102 668 669 4.9652E-02 -* -RFilter_m_mz_d7_m1_e103 669 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e1 655 665 667 1 1.614708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d7_m1_e2 1 671 643 1 1.000000E+00 -* -CFilter_m_mz_d7_m1_e201 671 672 3.9373E-10 -RFilter_m_mz_d7_m1_e201 671 672 1.8896E-01 -* -CFilter_m_mz_d7_m1_e202 672 673 2.3036E-08 -RFilter_m_mz_d7_m1_e202 672 673 4.9652E-02 -* -RFilter_m_mz_d7_m1_e203 673 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d7_m1_e2 665 1 671 1 -8.073541E-01 -* -* -* DOMAIN 8 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e1 63 675 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e1 675 1 674 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e1 1 674 Vmeas_mode_decomp_d8_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d8_c1_e2 245 677 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d8_c1_m1_e2 677 1 676 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d8_c1_m1_e2 1 676 Vmeas_mode_decomp_d8_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d8_m1_e1 674 678 3.565410E+01 -* -* Modal impedance: end2 -* -RZCm_d8_m1_e2 676 679 3.565410E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e1 1 682 680 1 1.000000E+00 -* -CFilter_m_d8_m1_e101 682 683 5.8574E-10 -RFilter_m_d8_m1_e101 682 683 1.2358E-01 -* -CFilter_m_d8_m1_e102 683 684 3.6258E-08 -RFilter_m_d8_m1_e102 683 684 3.1328E-02 -* -RFilter_m_d8_m1_e103 684 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e1 678 1 682 1 8.658669E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d8_m1_e2 1 687 685 1 1.000000E+00 -* -CFilter_m_d8_m1_e201 687 688 5.8574E-10 -RFilter_m_d8_m1_e201 687 688 1.2358E-01 -* -CFilter_m_d8_m1_e202 688 689 3.6258E-08 -RFilter_m_d8_m1_e202 688 689 3.1328E-02 -* -RFilter_m_d8_m1_e203 689 1 1.0000E+00 -* -* -ES2_Filter_m_d8_m1_e2 679 1 687 1 8.658669E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d8_m1_e1 685 1 690 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Delay line for negative z propagation -* -T_mz_d8_m1_e2 680 1 691 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.360697E-07 G=0.0 C= 1.070390E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d8_m1_e1 685 1 3.565410E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d8_m1_e2 680 1 3.565410E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e1 1 694 674 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e101 694 695 5.8574E-10 -RFilter_m_pz_d8_m1_e101 694 695 1.2358E-01 -* -CFilter_m_pz_d8_m1_e102 695 696 3.6258E-08 -RFilter_m_pz_d8_m1_e102 695 696 3.1328E-02 -* -RFilter_m_pz_d8_m1_e103 696 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e1 690 692 694 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d8_m1_e2 1 698 678 1 1.000000E+00 -* -CFilter_m_pz_d8_m1_e201 698 699 5.8574E-10 -RFilter_m_pz_d8_m1_e201 698 699 1.2358E-01 -* -CFilter_m_pz_d8_m1_e202 699 700 3.6258E-08 -RFilter_m_pz_d8_m1_e202 699 700 3.1328E-02 -* -RFilter_m_pz_d8_m1_e203 700 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d8_m1_e2 692 1 698 1 -8.658669E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e1 1 703 676 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e101 703 704 5.8574E-10 -RFilter_m_mz_d8_m1_e101 703 704 1.2358E-01 -* -CFilter_m_mz_d8_m1_e102 704 705 3.6258E-08 -RFilter_m_mz_d8_m1_e102 704 705 3.1328E-02 -* -RFilter_m_mz_d8_m1_e103 705 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e1 691 701 703 1 1.731734E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d8_m1_e2 1 707 679 1 1.000000E+00 -* -CFilter_m_mz_d8_m1_e201 707 708 5.8574E-10 -RFilter_m_mz_d8_m1_e201 707 708 1.2358E-01 -* -CFilter_m_mz_d8_m1_e202 708 709 3.6258E-08 -RFilter_m_mz_d8_m1_e202 708 709 3.1328E-02 -* -RFilter_m_mz_d8_m1_e203 709 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d8_m1_e2 701 1 707 1 -8.658669E-01 -* -* -* DOMAIN 9 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e1 64 714 -Vmeas_mode_decomp_d9_c2_e1 65 718 -Vmeas_mode_decomp_d9_c3_e1 66 722 -Vmeas_mode_decomp_d9_c4_e1 67 726 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e1 714 715 710 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e1 715 716 711 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e1 716 717 712 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e1 717 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e1 718 719 710 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e1 719 720 711 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e1 720 721 712 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e1 721 1 713 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e1 722 723 710 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e1 723 724 711 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e1 724 725 712 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e1 725 1 713 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e1 726 727 710 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e1 727 728 711 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e1 728 729 712 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e1 729 1 713 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e1 1 710 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e1 1 710 Vmeas_mode_decomp_d9_c2_e1 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e1 1 710 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e1 1 710 Vmeas_mode_decomp_d9_c4_e1 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e1 1 711 Vmeas_mode_decomp_d9_c1_e1 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e1 1 711 Vmeas_mode_decomp_d9_c2_e1 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e1 1 711 Vmeas_mode_decomp_d9_c3_e1 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e1 1 711 Vmeas_mode_decomp_d9_c4_e1 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e1 1 712 Vmeas_mode_decomp_d9_c1_e1 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e1 1 712 Vmeas_mode_decomp_d9_c2_e1 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e1 1 712 Vmeas_mode_decomp_d9_c3_e1 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e1 1 712 Vmeas_mode_decomp_d9_c4_e1 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e1 1 713 Vmeas_mode_decomp_d9_c1_e1 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e1 1 713 Vmeas_mode_decomp_d9_c2_e1 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e1 1 713 Vmeas_mode_decomp_d9_c3_e1 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e1 1 713 Vmeas_mode_decomp_d9_c4_e1 -5.00000000E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d9_c1_e2 246 734 -Vmeas_mode_decomp_d9_c2_e2 247 738 -Vmeas_mode_decomp_d9_c3_e2 248 742 -Vmeas_mode_decomp_d9_c4_e2 249 746 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d9_c1_m1_e2 734 735 730 1 5.00000000E-01 -E_mode_decomp_d9_c1_m2_e2 735 736 731 1 -3.03388983E-01 -E_mode_decomp_d9_c1_m3_e2 736 737 732 1 -6.38713649E-01 -E_mode_decomp_d9_c1_m4_e2 737 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c2_m1_e2 738 739 730 1 5.00000000E-01 -E_mode_decomp_d9_c2_m2_e2 739 740 731 1 -6.38713649E-01 -E_mode_decomp_d9_c2_m3_e2 740 741 732 1 3.03388983E-01 -E_mode_decomp_d9_c2_m4_e2 741 1 733 1 -5.00000000E-01 -E_mode_decomp_d9_c3_m1_e2 742 743 730 1 5.00000000E-01 -E_mode_decomp_d9_c3_m2_e2 743 744 731 1 3.03388983E-01 -E_mode_decomp_d9_c3_m3_e2 744 745 732 1 6.38713649E-01 -E_mode_decomp_d9_c3_m4_e2 745 1 733 1 5.00000000E-01 -E_mode_decomp_d9_c4_m1_e2 746 747 730 1 5.00000000E-01 -E_mode_decomp_d9_c4_m2_e2 747 748 731 1 6.38713649E-01 -E_mode_decomp_d9_c4_m3_e2 748 749 732 1 -3.03388983E-01 -E_mode_decomp_d9_c4_m4_e2 749 1 733 1 -5.00000000E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d9_c1_m1_e2 1 730 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m1_e2 1 730 Vmeas_mode_decomp_d9_c2_e2 5.00000000E-01 -F_mode_decomp_d9_c3_m1_e2 1 730 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m1_e2 1 730 Vmeas_mode_decomp_d9_c4_e2 5.00000000E-01 -F_mode_decomp_d9_c1_m2_e2 1 731 Vmeas_mode_decomp_d9_c1_e2 -3.03388983E-01 -F_mode_decomp_d9_c2_m2_e2 1 731 Vmeas_mode_decomp_d9_c2_e2 -6.38713649E-01 -F_mode_decomp_d9_c3_m2_e2 1 731 Vmeas_mode_decomp_d9_c3_e2 3.03388983E-01 -F_mode_decomp_d9_c4_m2_e2 1 731 Vmeas_mode_decomp_d9_c4_e2 6.38713649E-01 -F_mode_decomp_d9_c1_m3_e2 1 732 Vmeas_mode_decomp_d9_c1_e2 -6.38713649E-01 -F_mode_decomp_d9_c2_m3_e2 1 732 Vmeas_mode_decomp_d9_c2_e2 3.03388983E-01 -F_mode_decomp_d9_c3_m3_e2 1 732 Vmeas_mode_decomp_d9_c3_e2 6.38713649E-01 -F_mode_decomp_d9_c4_m3_e2 1 732 Vmeas_mode_decomp_d9_c4_e2 -3.03388983E-01 -F_mode_decomp_d9_c1_m4_e2 1 733 Vmeas_mode_decomp_d9_c1_e2 5.00000000E-01 -F_mode_decomp_d9_c2_m4_e2 1 733 Vmeas_mode_decomp_d9_c2_e2 -5.00000000E-01 -F_mode_decomp_d9_c3_m4_e2 1 733 Vmeas_mode_decomp_d9_c3_e2 5.00000000E-01 -F_mode_decomp_d9_c4_m4_e2 1 733 Vmeas_mode_decomp_d9_c4_e2 -5.00000000E-01 -* -* Modal impedance: end1 -* -RZCm_d9_m1_e1 710 758 4.742867E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m1_e2 730 759 4.742867E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e1 1 762 760 1 1.000000E+00 -* -CFilter_m_d9_m1_e101 762 763 1.1201E-09 -RFilter_m_d9_m1_e101 762 763 6.2941E-02 -* -CFilter_m_d9_m1_e102 763 764 7.3380E-08 -RFilter_m_d9_m1_e102 763 764 1.5426E-02 -* -RFilter_m_d9_m1_e103 764 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e1 758 750 762 1 9.273279E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m1_e2 1 767 765 1 1.000000E+00 -* -CFilter_m_d9_m1_e201 767 768 1.1201E-09 -RFilter_m_d9_m1_e201 767 768 6.2941E-02 -* -CFilter_m_d9_m1_e202 768 769 7.3380E-08 -RFilter_m_d9_m1_e202 768 769 1.5426E-02 -* -RFilter_m_d9_m1_e203 769 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m1_e2 759 751 767 1 9.273279E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m1_e1 765 1 770 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 -* -* Delay line for negative z propagation -* -T_mz_d9_m1_e2 760 1 771 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m1_e1 765 1 4.742867E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m1_e2 760 1 4.742867E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e1 1 774 710 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e101 774 775 1.1201E-09 -RFilter_m_pz_d9_m1_e101 774 775 6.2941E-02 -* -CFilter_m_pz_d9_m1_e102 775 776 7.3380E-08 -RFilter_m_pz_d9_m1_e102 775 776 1.5426E-02 -* -RFilter_m_pz_d9_m1_e103 776 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e1 770 772 774 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m1_e2 1 778 758 1 1.000000E+00 -* -CFilter_m_pz_d9_m1_e201 778 779 1.1201E-09 -RFilter_m_pz_d9_m1_e201 778 779 6.2941E-02 -* -CFilter_m_pz_d9_m1_e202 779 780 7.3380E-08 -RFilter_m_pz_d9_m1_e202 779 780 1.5426E-02 -* -RFilter_m_pz_d9_m1_e203 780 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m1_e2 772 1 778 1 -9.273279E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e1 1 783 730 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e101 783 784 1.1201E-09 -RFilter_m_mz_d9_m1_e101 783 784 6.2941E-02 -* -CFilter_m_mz_d9_m1_e102 784 785 7.3380E-08 -RFilter_m_mz_d9_m1_e102 784 785 1.5426E-02 -* -RFilter_m_mz_d9_m1_e103 785 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e1 771 781 783 1 1.854656E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m1_e2 1 787 759 1 1.000000E+00 -* -CFilter_m_mz_d9_m1_e201 787 788 1.1201E-09 -RFilter_m_mz_d9_m1_e201 787 788 6.2941E-02 -* -CFilter_m_mz_d9_m1_e202 788 789 7.3380E-08 -RFilter_m_mz_d9_m1_e202 788 789 1.5426E-02 -* -RFilter_m_mz_d9_m1_e203 789 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m1_e2 781 1 787 1 -9.273279E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m2_e1 711 790 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m2_e2 731 791 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e1 1 794 792 1 1.000000E+00 -* -CFilter_m_d9_m2_e101 794 795 1.3285E-09 -RFilter_m_d9_m2_e101 794 795 5.2739E-02 -* -CFilter_m_d9_m2_e102 795 796 8.7897E-08 -RFilter_m_d9_m2_e102 795 796 1.2807E-02 -* -RFilter_m_d9_m2_e103 796 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e1 790 752 794 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m2_e2 1 799 797 1 1.000000E+00 -* -CFilter_m_d9_m2_e201 799 800 1.3285E-09 -RFilter_m_d9_m2_e201 799 800 5.2739E-02 -* -CFilter_m_d9_m2_e202 800 801 8.7897E-08 -RFilter_m_d9_m2_e202 800 801 1.2807E-02 -* -RFilter_m_d9_m2_e203 801 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m2_e2 791 753 799 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m2_e1 797 1 802 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m2_e2 792 1 803 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m2_e1 797 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m2_e2 792 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e1 1 806 711 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e101 806 807 1.3285E-09 -RFilter_m_pz_d9_m2_e101 806 807 5.2739E-02 -* -CFilter_m_pz_d9_m2_e102 807 808 8.7897E-08 -RFilter_m_pz_d9_m2_e102 807 808 1.2807E-02 -* -RFilter_m_pz_d9_m2_e103 808 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e1 802 804 806 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m2_e2 1 810 790 1 1.000000E+00 -* -CFilter_m_pz_d9_m2_e201 810 811 1.3285E-09 -RFilter_m_pz_d9_m2_e201 810 811 5.2739E-02 -* -CFilter_m_pz_d9_m2_e202 811 812 8.7897E-08 -RFilter_m_pz_d9_m2_e202 811 812 1.2807E-02 -* -RFilter_m_pz_d9_m2_e203 812 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m2_e2 804 1 810 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e1 1 815 731 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e101 815 816 1.3285E-09 -RFilter_m_mz_d9_m2_e101 815 816 5.2739E-02 -* -CFilter_m_mz_d9_m2_e102 816 817 8.7897E-08 -RFilter_m_mz_d9_m2_e102 816 817 1.2807E-02 -* -RFilter_m_mz_d9_m2_e103 817 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e1 803 813 815 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m2_e2 1 819 791 1 1.000000E+00 -* -CFilter_m_mz_d9_m2_e201 819 820 1.3285E-09 -RFilter_m_mz_d9_m2_e201 819 820 5.2739E-02 -* -CFilter_m_mz_d9_m2_e202 820 821 8.7897E-08 -RFilter_m_mz_d9_m2_e202 820 821 1.2807E-02 -* -RFilter_m_mz_d9_m2_e203 821 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m2_e2 813 1 819 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m3_e1 712 822 2.505812E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m3_e2 732 823 2.505812E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e1 1 826 824 1 1.000000E+00 -* -CFilter_m_d9_m3_e101 826 827 1.3285E-09 -RFilter_m_d9_m3_e101 826 827 5.2739E-02 -* -CFilter_m_d9_m3_e102 827 828 8.7897E-08 -RFilter_m_d9_m3_e102 827 828 1.2807E-02 -* -RFilter_m_d9_m3_e103 828 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e1 822 754 826 1 9.384859E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m3_e2 1 831 829 1 1.000000E+00 -* -CFilter_m_d9_m3_e201 831 832 1.3285E-09 -RFilter_m_d9_m3_e201 831 832 5.2739E-02 -* -CFilter_m_d9_m3_e202 832 833 8.7897E-08 -RFilter_m_d9_m3_e202 832 833 1.2807E-02 -* -RFilter_m_d9_m3_e203 833 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m3_e2 823 755 831 1 9.384859E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m3_e1 829 1 834 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m3_e2 824 1 835 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m3_e1 829 1 2.505812E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m3_e2 824 1 2.505812E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e1 1 838 712 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e101 838 839 1.3285E-09 -RFilter_m_pz_d9_m3_e101 838 839 5.2739E-02 -* -CFilter_m_pz_d9_m3_e102 839 840 8.7897E-08 -RFilter_m_pz_d9_m3_e102 839 840 1.2807E-02 -* -RFilter_m_pz_d9_m3_e103 840 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e1 834 836 838 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m3_e2 1 842 822 1 1.000000E+00 -* -CFilter_m_pz_d9_m3_e201 842 843 1.3285E-09 -RFilter_m_pz_d9_m3_e201 842 843 5.2739E-02 -* -CFilter_m_pz_d9_m3_e202 843 844 8.7897E-08 -RFilter_m_pz_d9_m3_e202 843 844 1.2807E-02 -* -RFilter_m_pz_d9_m3_e203 844 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m3_e2 836 1 842 1 -9.384859E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e1 1 847 732 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e101 847 848 1.3285E-09 -RFilter_m_mz_d9_m3_e101 847 848 5.2739E-02 -* -CFilter_m_mz_d9_m3_e102 848 849 8.7897E-08 -RFilter_m_mz_d9_m3_e102 848 849 1.2807E-02 -* -RFilter_m_mz_d9_m3_e103 849 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e1 835 845 847 1 1.876972E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m3_e2 1 851 823 1 1.000000E+00 -* -CFilter_m_mz_d9_m3_e201 851 852 1.3285E-09 -RFilter_m_mz_d9_m3_e201 851 852 5.2739E-02 -* -CFilter_m_mz_d9_m3_e202 852 853 8.7897E-08 -RFilter_m_mz_d9_m3_e202 852 853 1.2807E-02 -* -RFilter_m_mz_d9_m3_e203 853 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m3_e2 845 1 851 1 -9.384859E-01 -* -* -* Modal impedance: end1 -* -RZCm_d9_m4_e1 713 854 1.776751E+01 -* -* Modal impedance: end2 -* -RZCm_d9_m4_e2 733 855 1.776751E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e1 1 858 856 1 1.000000E+00 -* -CFilter_m_d9_m4_e101 858 859 9.4177E-10 -RFilter_m_d9_m4_e101 858 859 7.5168E-02 -* -CFilter_m_d9_m4_e102 859 860 6.0964E-08 -RFilter_m_d9_m4_e102 859 860 1.8500E-02 -* -RFilter_m_d9_m4_e103 860 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e1 854 756 858 1 9.143540E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d9_m4_e2 1 863 861 1 1.000000E+00 -* -CFilter_m_d9_m4_e201 863 864 9.4177E-10 -RFilter_m_d9_m4_e201 863 864 7.5168E-02 -* -CFilter_m_d9_m4_e202 864 865 6.0964E-08 -RFilter_m_d9_m4_e202 864 865 1.8500E-02 -* -RFilter_m_d9_m4_e203 865 1 1.0000E+00 -* -* -ES2_Filter_m_d9_m4_e2 855 757 863 1 9.143540E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d9_m4_e1 861 1 866 1 LEN= 1.000000E+00 -+ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 -* -* Delay line for negative z propagation -* -T_mz_d9_m4_e2 856 1 867 1 LEN= 1.000000E+00 -+ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d9_m4_e1 861 1 1.776751E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d9_m4_e2 856 1 1.776751E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e1 1 870 713 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e101 870 871 9.4177E-10 -RFilter_m_pz_d9_m4_e101 870 871 7.5168E-02 -* -CFilter_m_pz_d9_m4_e102 871 872 6.0964E-08 -RFilter_m_pz_d9_m4_e102 871 872 1.8500E-02 -* -RFilter_m_pz_d9_m4_e103 872 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e1 866 868 870 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d9_m4_e2 1 874 854 1 1.000000E+00 -* -CFilter_m_pz_d9_m4_e201 874 875 9.4177E-10 -RFilter_m_pz_d9_m4_e201 874 875 7.5168E-02 -* -CFilter_m_pz_d9_m4_e202 875 876 6.0964E-08 -RFilter_m_pz_d9_m4_e202 875 876 1.8500E-02 -* -RFilter_m_pz_d9_m4_e203 876 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d9_m4_e2 868 1 874 1 -9.143540E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e1 1 879 733 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e101 879 880 9.4177E-10 -RFilter_m_mz_d9_m4_e101 879 880 7.5168E-02 -* -CFilter_m_mz_d9_m4_e102 880 881 6.0964E-08 -RFilter_m_mz_d9_m4_e102 880 881 1.8500E-02 -* -RFilter_m_mz_d9_m4_e103 881 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e1 867 877 879 1 1.828708E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d9_m4_e2 1 883 855 1 1.000000E+00 -* -CFilter_m_mz_d9_m4_e201 883 884 9.4177E-10 -RFilter_m_mz_d9_m4_e201 883 884 7.5168E-02 -* -CFilter_m_mz_d9_m4_e202 884 885 6.0964E-08 -RFilter_m_mz_d9_m4_e202 884 885 1.8500E-02 -* -RFilter_m_mz_d9_m4_e203 885 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d9_m4_e2 877 1 883 1 -9.143540E-01 -* -* -* DOMAIN 10 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e1 68 887 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e1 887 1 886 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e1 1 886 Vmeas_mode_decomp_d10_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d10_c1_e2 250 889 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d10_c1_m1_e2 889 1 888 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d10_c1_m1_e2 1 888 Vmeas_mode_decomp_d10_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d10_m1_e1 886 890 8.051885E+01 -* -* Modal impedance: end2 -* -RZCm_d10_m1_e2 888 891 8.051885E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d10_m1_e1 890 1 892 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d10_m1_e2 891 1 893 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d10_m1_e1 893 1 894 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Delay line for negative z propagation -* -T_mz_d10_m1_e2 892 1 895 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d10_m1_e1 893 1 8.051885E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d10_m1_e2 892 1 8.051885E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d10_m1_e1 894 896 886 1 2.000000E+00 -E_m_pz_d10_m1_e2 896 1 890 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d10_m1_e1 895 897 888 1 2.000000E+00 -E_m_mz_d10_m1_e2 897 1 891 1 -1.000000E+00 -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_1_vm_1 898 1 899 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.660834E-07 G=0.0 C= 1.627414E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_1_vm_1 900 1 901 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.660834E-07 G=0.0 C= 1.627414E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_1_vm_1 899 1 0.474287E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_1_vm_1 901 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_1_vm_1 898 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_1_vm_1 900 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_1_vm_1 902 1 903 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_1_vm_1 904 1 905 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.850775E-07 G=0.0 C= 8.227574E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_1_vm_1 903 1 0.474287E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_1_vm_1 905 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_1_vm_1 902 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_1_vm_1 904 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_1_vm_1 906 1 907 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.810059E-07 G=0.0 C= 8.046571E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_1_vm_1 908 1 909 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.810059E-07 G=0.0 C= 8.046571E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_1_vm_1 907 1 0.474287E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_1_vm_1 909 1 0.474287E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_1_vm_1 906 1 770 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_1_vm_1 908 1 771 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_2_vm_1 910 1 911 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_2_vm_1 912 1 913 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_2_vm_1 911 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_2_vm_1 913 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_2_vm_1 910 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_2_vm_1 912 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_2_vm_1 914 1 915 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_2_vm_1 916 1 917 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_2_vm_1 915 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_2_vm_1 917 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_2_vm_1 914 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_2_vm_1 916 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_2_vm_1 918 1 919 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_2_vm_1 920 1 921 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_2_vm_1 919 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_2_vm_1 921 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_2_vm_1 918 1 802 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_2_vm_1 920 1 803 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_3_vm_1 922 1 923 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_3_vm_1 924 1 925 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.982213E-07 G=0.0 C= 3.156845E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_3_vm_1 923 1 0.250581E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_3_vm_1 925 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_3_vm_1 922 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_3_vm_1 924 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_3_vm_1 926 1 927 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_3_vm_1 928 1 929 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.025900E-07 G=0.0 C= 1.633833E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_3_vm_1 927 1 0.250581E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_3_vm_1 929 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_3_vm_1 926 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_3_vm_1 928 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_3_vm_1 930 1 931 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_3_vm_1 932 1 933 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.563135E-08 G=0.0 C= 1.523011E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_3_vm_1 931 1 0.250581E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_3_vm_1 933 1 0.250581E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_3_vm_1 930 1 834 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_3_vm_1 932 1 835 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT1_sm_4_vm_1 934 1 935 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.424126E-07 G=0.0 C= 4.511231E-10 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT1_sm_4_vm_1 936 1 937 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.424126E-07 G=0.0 C= 4.511231E-10 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT1_sm_4_vm_1 935 1 0.177675E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT1_sm_4_vm_1 937 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT1_sm_4_vm_1 934 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT1_sm_4_vm_1 936 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT1_sm_4_vm_1 938 1 939 1 LEN= 1.000000E+00 -+ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT1_sm_4_vm_1 940 1 941 1 LEN= 1.000000E+00 -+ R=0.0 L= 7.460498E-08 G=0.0 C= 2.363277E-10 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT1_sm_4_vm_1 939 1 0.177675E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT1_sm_4_vm_1 941 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT1_sm_4_vm_1 938 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT1_sm_4_vm_1 940 1 867 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT1_sm_4_vm_1 942 1 943 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.780760E-08 G=0.0 C= 2.147955E-10 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT1_sm_4_vm_1 944 1 945 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.780760E-08 G=0.0 C= 2.147955E-10 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT1_sm_4_vm_1 943 1 0.177675E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT1_sm_4_vm_1 945 1 0.177675E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT1_sm_4_vm_1 942 1 866 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT1_sm_4_vm_1 944 1 867 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_1_vm_1_E1 946 1 771 1 -0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E2 947 946 901 1 0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E1 948 1 770 1 -0.227792E-02 -E_zt_dsum_s_ZT1_sm_1_vm_1_E2 949 948 899 1 0.227792E-02 -E_zt_dsum_l_ZT1_sm_1_vm_1_E3 950 947 907 1 0.204810E+00 -E_zt_dsum_l_ZT1_sm_1_vm_1_E4 951 950 903 1 -0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E4 952 949 909 1 0.204810E+00 -E_zt_dsum_s_ZT1_sm_1_vm_1_E3 953 952 905 1 -0.204810E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_2_vm_1_E1 954 951 803 1 0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E2 955 954 913 1 -0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E1 956 953 802 1 0.255269E-02 -E_zt_dsum_s_ZT1_sm_2_vm_1_E2 957 956 911 1 -0.255269E-02 -E_zt_dsum_l_ZT1_sm_2_vm_1_E3 958 955 919 1 -0.727154E-01 -E_zt_dsum_l_ZT1_sm_2_vm_1_E4 959 958 915 1 0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E4 960 957 921 1 -0.727154E-01 -E_zt_dsum_s_ZT1_sm_2_vm_1_E3 961 960 917 1 0.727154E-01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_3_vm_1_E1 962 959 835 1 0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E2 963 962 925 1 -0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E1 964 961 834 1 0.537409E-02 -E_zt_dsum_s_ZT1_sm_3_vm_1_E2 965 964 923 1 -0.537409E-02 -E_zt_dsum_l_ZT1_sm_3_vm_1_E3 966 963 931 1 -0.153085E+00 -E_zt_dsum_l_ZT1_sm_3_vm_1_E4 967 966 927 1 0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E4 968 965 933 1 -0.153085E+00 -E_zt_dsum_s_ZT1_sm_3_vm_1_E3 969 968 929 1 0.153085E+00 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT1_sm_4_vm_1_E1 970 967 867 1 -0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E2 971 970 937 1 0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E1 972 969 866 1 -0.585559E-02 -E_zt_dsum_s_ZT1_sm_4_vm_1_E2 973 972 935 1 0.585559E-02 -E_zt_dsum_l_ZT1_sm_4_vm_1_E3 974 971 943 1 0.122681E+00 -E_zt_dsum_l_ZT1_sm_4_vm_1_E4 975 974 939 1 -0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E4 976 973 945 1 0.122681E+00 -E_zt_dsum_s_ZT1_sm_4_vm_1_E3 977 976 941 1 -0.122681E+00 -R_zt_dsum_l_ZT1_sm_4_vm_1 975 1 0.100000E+01 -R_zt_dsum_s_ZT1_sm_4_vm_1 977 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT1_sm_4_vm_1 1 979 977 1 1.000000E+00 -* -LFilter_ZT_s_ZT1_sm_4_vm_101 979 980 8.9459E-12 -RFilter_ZT_s_ZT1_sm_4_vm_101 979 980 1.2358E-01 -* -LFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.5586E-11 -RFilter_ZT_s_ZT1_sm_4_vm_102 980 981 3.1328E-02 -* -RFilter_ZT_s_ZT1_sm_4_vm_103 981 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_s_ZT1_sm_4_vm_1 1 982 977 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT1_sm_4_vm_1 1 982 1.7324E+00 -ES2_Filter_ZT_s_ZT1_sm_4_vm_1 460 1 979 982 1.142154E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT1_sm_4_vm_1 1 984 975 1 1.000000E+00 -* -LFilter_ZT_l_ZT1_sm_4_vm_101 984 985 8.9459E-12 -RFilter_ZT_l_ZT1_sm_4_vm_101 984 985 1.2358E-01 -* -LFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.5586E-11 -RFilter_ZT_l_ZT1_sm_4_vm_102 985 986 3.1328E-02 -* -RFilter_ZT_l_ZT1_sm_4_vm_103 986 1 5.7746E-01 -* -* -* -GS2_Filter_ZT_l_ZT1_sm_4_vm_1 1 987 975 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT1_sm_4_vm_1 1 987 1.7324E+00 -ES2_Filter_ZT_l_ZT1_sm_4_vm_1 461 1 984 987 1.142154E-01 -* -* -* START OF TRANSFER IMPEDANCE COUPLING MODELS -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_1 988 1 989 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.890829E-07 G=0.0 C= 9.086179E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_1 990 1 991 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.890829E-07 G=0.0 C= 9.086179E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_1 989 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_1 991 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_1 988 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_1 990 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_1 992 1 993 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_1 994 1 995 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_1 993 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_1 995 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_1 992 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_1 994 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_1 996 1 997 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.142030E-07 G=0.0 C= 4.846354E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_1 998 1 999 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.142030E-07 G=0.0 C= 4.846354E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_1 997 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_1 999 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_1 996 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_1 998 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_1_E1 1000 1 895 1 -0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E2 1001 1000 991 1 0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E1 1002 1 894 1 -0.566243E-02 -E_zt_dsum_s_ZT2_sm_1_vm_1_E2 1003 1002 989 1 0.566243E-02 -E_zt_dsum_l_ZT2_sm_1_vm_1_E3 1004 1001 997 1 -0.848267E-01 -E_zt_dsum_l_ZT2_sm_1_vm_1_E4 1005 1004 993 1 0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E4 1006 1003 999 1 -0.848267E-01 -E_zt_dsum_s_ZT2_sm_1_vm_1_E3 1007 1006 995 1 0.848267E-01 -R_zt_dsum_l_ZT2_sm_1_vm_1 1005 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_1 1007 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_1 1 1009 1007 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 4.4375E-12 -RFilter_ZT_s_ZT2_sm_1_vm_101 1009 1010 6.2941E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.7462E-11 -RFilter_ZT_s_ZT2_sm_1_vm_102 1010 1011 1.5426E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_103 1011 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_1 1 1012 1007 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_1 1 1012 1.6176E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_1 750 1 1009 1012 1.306628E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_1 1 1014 1005 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 4.4375E-12 -RFilter_ZT_l_ZT2_sm_1_vm_101 1014 1015 6.2941E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.7462E-11 -RFilter_ZT_l_ZT2_sm_1_vm_102 1015 1016 1.5426E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_103 1016 1 5.3918E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_1 1 1017 1005 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_1 1 1017 1.6176E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_1 751 1 1014 1017 1.306628E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 1019 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 1021 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_2 1019 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_2 1021 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_2 1018 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_2 1020 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_2 1022 1 1023 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_2 1024 1 1025 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_2 1023 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_2 1025 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_2 1022 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_2 1024 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_2 1026 1 1027 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_2 1028 1 1029 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_2 1027 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_2 1029 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_2 1026 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_2 1028 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_2_E1 1030 1 895 1 -0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E2 1031 1030 1021 1 0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E1 1032 1 894 1 -0.140896E-16 -E_zt_dsum_s_ZT2_sm_1_vm_2_E2 1033 1032 1019 1 0.140896E-16 -E_zt_dsum_l_ZT2_sm_1_vm_2_E3 1034 1031 1027 1 -0.155514E-15 -E_zt_dsum_l_ZT2_sm_1_vm_2_E4 1035 1034 1023 1 0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E4 1036 1033 1029 1 -0.155514E-15 -E_zt_dsum_s_ZT2_sm_1_vm_2_E3 1037 1036 1025 1 0.155514E-15 -R_zt_dsum_l_ZT2_sm_1_vm_2 1035 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_2 1037 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_2 1 1039 1037 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_201 1039 1040 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_202 1040 1041 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_203 1041 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_2 1 1042 1037 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_2 1 1042 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_2 752 1 1039 1042 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_2 1 1044 1035 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_201 1044 1045 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_202 1045 1046 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_203 1046 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_2 1 1047 1035 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_2 1 1047 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_2 753 1 1044 1047 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 1049 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 1051 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.045306E-07 G=0.0 C= 9.324449E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_3 1049 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_3 1051 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_3 1048 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_3 1050 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_3 1052 1 1053 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_3 1054 1 1055 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_3 1053 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_3 1055 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_3 1052 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_3 1054 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_3 1056 1 1057 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_3 1058 1 1059 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.296506E-07 G=0.0 C= 5.084623E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_3 1057 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_3 1059 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_3 1056 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_3 1058 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_3_E1 1060 1 895 1 0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E2 1061 1060 1051 1 -0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E1 1062 1 894 1 0.226659E-16 -E_zt_dsum_s_ZT2_sm_1_vm_3_E2 1063 1062 1049 1 -0.226659E-16 -E_zt_dsum_l_ZT2_sm_1_vm_3_E3 1064 1061 1057 1 0.250175E-15 -E_zt_dsum_l_ZT2_sm_1_vm_3_E4 1065 1064 1053 1 -0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E4 1066 1063 1059 1 0.250175E-15 -E_zt_dsum_s_ZT2_sm_1_vm_3_E3 1067 1066 1055 1 -0.250175E-15 -R_zt_dsum_l_ZT2_sm_1_vm_3 1065 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_3 1067 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_3 1 1069 1067 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 3.6952E-12 -RFilter_ZT_s_ZT2_sm_1_vm_301 1069 1070 5.2739E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.4416E-11 -RFilter_ZT_s_ZT2_sm_1_vm_302 1070 1071 1.2807E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_303 1071 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_3 1 1072 1067 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_3 1 1072 1.5983E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_3 754 1 1069 1072 1.322350E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_3 1 1074 1065 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 3.6952E-12 -RFilter_ZT_l_ZT2_sm_1_vm_301 1074 1075 5.2739E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.4416E-11 -RFilter_ZT_l_ZT2_sm_1_vm_302 1075 1076 1.2807E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_303 1076 1 5.3277E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_3 1 1077 1065 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_3 1 1077 1.5983E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_3 755 1 1074 1077 1.322350E-01 -* -* -* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 1079 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.129750E-07 G=0.0 C= 9.454697E-11 -* -* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode) -* -T_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 1081 1 LEN= 1.000000E+00 -+ R=0.0 L= 6.129750E-07 G=0.0 C= 9.454697E-11 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_pz_TsPTv_ZT2_sm_1_vm_4 1079 1 0.805189E+02 -* -* Modal impedances: T_source(s_mode)+T_victim(v_mode) -* -RZC_mz_TsPTv_ZT2_sm_1_vm_4 1081 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_TsPTv_ZT2_sm_1_vm_4 1078 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_TsPTv_ZT2_sm_1_vm_4 1080 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_source(s_mode) delay -* -T_pz_Ts_ZT2_sm_1_vm_4 1082 1 1083 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Delay lines for negative z propagation, T_source(s_mode) delay -* -T_mz_Ts_ZT2_sm_1_vm_4 1084 1 1085 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.748800E-07 G=0.0 C= 4.239825E-11 -* -* Modal impedances: for pz propagation, T_source(s_mode) -* -RZC_pz_Ts_ZT2_sm_1_vm_4 1083 1 0.805189E+02 -* -* Modal impedances: for mz propagation, T_source(s_mode) -* -RZC_mz_Ts_ZT2_sm_1_vm_4 1085 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation, Vs+(0,t) -* -E1_pz_Ts_ZT2_sm_1_vm_4 1082 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation Vs-(L,t) -* -E1_mz_Ts_ZT2_sm_1_vm_4 1084 1 895 1 0.100000E+01 -* -* Delay lines for positive z propagation, T_victim(v_mode) -* -T_pz_Tv_ZT2_sm_1_vm_4 1086 1 1087 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.380950E-07 G=0.0 C= 5.214871E-11 -* -* Delay lines for negative z propagation, T_victim(v_mode) -* -T_mz_Tv_ZT2_sm_1_vm_4 1088 1 1089 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.380950E-07 G=0.0 C= 5.214871E-11 -* -* Modal impedances for pz propagation: T_victim(v_mode) -* -RZC_pz_Tv_ZT2_sm_1_vm_4 1087 1 0.805189E+02 -* -* Modal impedances for Mz propagation: T_victim(v_mode) -* -RZC_mz_Tv_ZT2_sm_1_vm_4 1089 1 0.805189E+02 -* -* Delay line controlled sources for positive z propagation -* -E1_pz_Tv_ZT2_sm_1_vm_4 1086 1 894 1 0.100000E+01 -* -* Delay line controlled sources for negative z propagation -* -E1_mz_Tv_ZT2_sm_1_vm_4 1088 1 895 1 0.100000E+01 -* -* Circuit to combine transfer impedance terms -* -E_zt_dsum_l_ZT2_sm_1_vm_4_E1 1090 1 895 1 -0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E2 1091 1090 1081 1 0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E1 1092 1 894 1 -0.664568E-17 -E_zt_dsum_s_ZT2_sm_1_vm_4_E2 1093 1092 1079 1 0.664568E-17 -E_zt_dsum_l_ZT2_sm_1_vm_4_E3 1094 1091 1087 1 -0.644409E-16 -E_zt_dsum_l_ZT2_sm_1_vm_4_E4 1095 1094 1083 1 0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E4 1096 1093 1089 1 -0.644409E-16 -E_zt_dsum_s_ZT2_sm_1_vm_4_E3 1097 1096 1085 1 0.644409E-16 -R_zt_dsum_l_ZT2_sm_1_vm_4 1095 1 0.100000E+01 -R_zt_dsum_s_ZT2_sm_1_vm_4 1097 1 0.100000E+01 -* -* Transfer impedance sources, end 1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_s_ZT2_sm_1_vm_4 1 1099 1097 1 1.000000E+00 -* -LFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 5.3212E-12 -RFilter_ZT_s_ZT2_sm_1_vm_401 1099 1100 7.5168E-02 -* -LFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 2.0866E-11 -RFilter_ZT_s_ZT2_sm_1_vm_402 1100 1101 1.8500E-02 -* -RFilter_ZT_s_ZT2_sm_1_vm_403 1101 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_s_ZT2_sm_1_vm_4 1 1102 1097 1 1.000000E+00 -* -R_addFilter_ZT_s_ZT2_sm_1_vm_4 1 1102 1.6405E+00 -ES2_Filter_ZT_s_ZT2_sm_1_vm_4 756 1 1099 1102 1.288347E-01 -* -* -* Transfer impedance sources, end 2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_ZT_l_ZT2_sm_1_vm_4 1 1104 1095 1 1.000000E+00 -* -LFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 5.3212E-12 -RFilter_ZT_l_ZT2_sm_1_vm_401 1104 1105 7.5168E-02 -* -LFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 2.0866E-11 -RFilter_ZT_l_ZT2_sm_1_vm_402 1105 1106 1.8500E-02 -* -RFilter_ZT_l_ZT2_sm_1_vm_403 1106 1 5.4683E-01 -* -* -* -GS2_Filter_ZT_l_ZT2_sm_1_vm_4 1 1107 1095 1 1.000000E+00 -* -R_addFilter_ZT_l_ZT2_sm_1_vm_4 1 1107 1.6405E+00 -ES2_Filter_ZT_l_ZT2_sm_1_vm_4 757 1 1104 1107 1.288347E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec deleted file mode 100644 index 741ccea..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec +++ /dev/null @@ -1,45 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -STP_AWG_26_ESCC_3901025_V12_ground_plane -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -60.0 End 1 impedance list -60.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -60.0 End 2 impedance list -60.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 ! order of vector fit model -log # frequency scale (log or lin) -1e5 1e9 200 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib deleted file mode 100644 index 56923b3..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 8.499819E-02 -Rdc_c2_e1 3 11 8.499819E-02 -Rdc_c3_e1 4 12 7.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 8.499819E-02 -Rdc_c2_e2 7 14 8.499819E-02 -Rdc_c3_e2 8 15 7.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 5.984632E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 5.984632E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 4.5852E-10 -RFilter_m_d1_m1_e101 48 49 1.6606E-01 -* -CFilter_m_d1_m1_e102 49 50 2.7354E-08 -RFilter_m_d1_m1_e102 49 50 4.3469E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 4.5852E-10 -RFilter_m_d1_m1_e201 53 54 1.6606E-01 -* -CFilter_m_d1_m1_e202 54 55 2.7354E-08 -RFilter_m_d1_m1_e202 54 55 4.3469E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 5.984632E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 5.984632E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 -RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 -* -CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 -RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 -RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 -* -CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 -RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 -RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 -* -CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 -RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 -RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 -* -CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 -RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 2.302123E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 2.302123E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 4.2643E-10 -RFilter_m_d2_m1_e101 84 85 1.7733E-01 -* -CFilter_m_d2_m1_e102 85 86 2.5161E-08 -RFilter_m_d2_m1_e102 85 86 4.5624E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 4.2643E-10 -RFilter_m_d2_m1_e201 89 90 1.7733E-01 -* -CFilter_m_d2_m1_e202 90 91 2.5161E-08 -RFilter_m_d2_m1_e202 90 91 4.5624E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 2.302123E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 2.302123E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 -RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 -* -CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 -RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 -RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 -* -CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 -RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 -RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 -* -CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 -RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 -RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 -* -CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 -RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.980919E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.980919E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 1.3959E-08 -RFilter_m_d3_m1_e101 120 121 4.9166E-03 -* -CFilter_m_d3_m1_e102 121 122 9.6729E-07 -RFilter_m_d3_m1_e102 121 122 1.1033E-03 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 1.3959E-08 -RFilter_m_d3_m1_e201 125 126 4.9166E-03 -* -CFilter_m_d3_m1_e202 126 127 9.6729E-07 -RFilter_m_d3_m1_e202 126 127 1.1033E-03 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.980919E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.980919E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 -RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 -RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 -RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 -RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 -RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 -RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 -RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 -RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib deleted file mode 100644 index cd42c80..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 8.499819E-02 -Rdc_c2_e1 3 11 8.499819E-02 -Rdc_c3_e1 4 12 7.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 8.499819E-02 -Rdc_c2_e2 7 14 8.499819E-02 -Rdc_c3_e2 8 15 7.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 5.984632E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 5.984632E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 4.5852E-10 -RFilter_m_d1_m1_e101 48 49 1.6606E-01 -* -CFilter_m_d1_m1_e102 49 50 2.7354E-08 -RFilter_m_d1_m1_e102 49 50 4.3469E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 4.5852E-10 -RFilter_m_d1_m1_e201 53 54 1.6606E-01 -* -CFilter_m_d1_m1_e202 54 55 2.7354E-08 -RFilter_m_d1_m1_e202 54 55 4.3469E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 2.557455E-07 C= 7.140573E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 5.984632E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 5.984632E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 -RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 -* -CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 -RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 -RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 -* -CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 -RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 -RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 -* -CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 -RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 -RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 -* -CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 -RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 2.302123E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 2.302123E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 4.2643E-10 -RFilter_m_d2_m1_e101 84 85 1.7733E-01 -* -CFilter_m_d2_m1_e102 85 86 2.5161E-08 -RFilter_m_d2_m1_e102 85 86 4.5624E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 4.2643E-10 -RFilter_m_d2_m1_e201 89 90 1.7733E-01 -* -CFilter_m_d2_m1_e202 90 91 2.5161E-08 -RFilter_m_d2_m1_e202 90 91 4.5624E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 9.520499E-08 C= 1.796399E-10 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 2.302123E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 2.302123E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 -RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 -* -CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 -RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 -RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 -* -CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 -RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 -RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 -* -CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 -RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 -RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 -* -CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 -RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.980919E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.980919E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 1.3959E-08 -RFilter_m_d3_m1_e101 120 121 4.9166E-03 -* -CFilter_m_d3_m1_e102 121 122 9.6729E-07 -RFilter_m_d3_m1_e102 121 122 1.1033E-03 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 1.3959E-08 -RFilter_m_d3_m1_e201 125 126 4.9166E-03 -* -CFilter_m_d3_m1_e202 126 127 9.6729E-07 -RFilter_m_d3_m1_e202 126 127 1.1033E-03 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 1.007397E-06 C= 1.133706E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.980919E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.980919E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 -RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 -RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 -RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 -RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 -RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 -RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 -RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 -RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib deleted file mode 100644 index 72276c0..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_AWG_26_ESCC_3901025_V12_ground_plane_PSpice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_AWG_26_ESCC_3901025_V12. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_AWG_26_ESCC_3901025_V12_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 8.499819E-02 -Rdc_c2_e1 3 11 8.499819E-02 -Rdc_c3_e1 4 12 7.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 8.499819E-02 -Rdc_c2_e2 7 14 8.499819E-02 -Rdc_c3_e2 8 15 7.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 5.984632E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 5.984632E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 4.5852E-10 -RFilter_m_d1_m1_e101 48 49 1.6606E-01 -* -CFilter_m_d1_m1_e102 49 50 2.7354E-08 -RFilter_m_d1_m1_e102 49 50 4.3469E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 8.267688E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 4.5852E-10 -RFilter_m_d1_m1_e201 53 54 1.6606E-01 -* -CFilter_m_d1_m1_e202 54 55 2.7354E-08 -RFilter_m_d1_m1_e202 54 55 4.3469E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 8.267688E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 51 1 56 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.557455E-07 G=0.0 C= 7.140573E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 46 1 57 1 LEN= 1.000000E+00 -+ R=0.0 L= 2.557455E-07 G=0.0 C= 7.140573E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 5.984632E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 5.984632E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 4.5852E-10 -RFilter_m_pz_d1_m1_e101 60 61 1.6606E-01 -* -CFilter_m_pz_d1_m1_e102 61 62 2.7354E-08 -RFilter_m_pz_d1_m1_e102 61 62 4.3469E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 4.5852E-10 -RFilter_m_pz_d1_m1_e201 64 65 1.6606E-01 -* -CFilter_m_pz_d1_m1_e202 65 66 2.7354E-08 -RFilter_m_pz_d1_m1_e202 65 66 4.3469E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -8.267688E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 4.5852E-10 -RFilter_m_mz_d1_m1_e101 69 70 1.6606E-01 -* -CFilter_m_mz_d1_m1_e102 70 71 2.7354E-08 -RFilter_m_mz_d1_m1_e102 70 71 4.3469E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.653538E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 4.5852E-10 -RFilter_m_mz_d1_m1_e201 73 74 1.6606E-01 -* -CFilter_m_mz_d1_m1_e202 74 75 2.7354E-08 -RFilter_m_mz_d1_m1_e202 74 75 4.3469E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -8.267688E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 2.302123E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 2.302123E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 4.2643E-10 -RFilter_m_d2_m1_e101 84 85 1.7733E-01 -* -CFilter_m_d2_m1_e102 85 86 2.5161E-08 -RFilter_m_d2_m1_e102 85 86 4.5624E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 8.176912E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 4.2643E-10 -RFilter_m_d2_m1_e201 89 90 1.7733E-01 -* -CFilter_m_d2_m1_e202 90 91 2.5161E-08 -RFilter_m_d2_m1_e202 90 91 4.5624E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 8.176912E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 87 1 92 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.520499E-08 G=0.0 C= 1.796399E-10 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 82 1 93 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.520499E-08 G=0.0 C= 1.796399E-10 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 2.302123E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 2.302123E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 4.2643E-10 -RFilter_m_pz_d2_m1_e101 96 97 1.7733E-01 -* -CFilter_m_pz_d2_m1_e102 97 98 2.5161E-08 -RFilter_m_pz_d2_m1_e102 97 98 4.5624E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 4.2643E-10 -RFilter_m_pz_d2_m1_e201 100 101 1.7733E-01 -* -CFilter_m_pz_d2_m1_e202 101 102 2.5161E-08 -RFilter_m_pz_d2_m1_e202 101 102 4.5624E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -8.176912E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 4.2643E-10 -RFilter_m_mz_d2_m1_e101 105 106 1.7733E-01 -* -CFilter_m_mz_d2_m1_e102 106 107 2.5161E-08 -RFilter_m_mz_d2_m1_e102 106 107 4.5624E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.635382E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 4.2643E-10 -RFilter_m_mz_d2_m1_e201 109 110 1.7733E-01 -* -CFilter_m_mz_d2_m1_e202 110 111 2.5161E-08 -RFilter_m_mz_d2_m1_e202 110 111 4.5624E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -8.176912E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.980919E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.980919E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 1.3959E-08 -RFilter_m_d3_m1_e101 120 121 4.9166E-03 -* -CFilter_m_d3_m1_e102 121 122 9.6729E-07 -RFilter_m_d3_m1_e102 121 122 1.1033E-03 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.940161E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 1.3959E-08 -RFilter_m_d3_m1_e201 125 126 4.9166E-03 -* -CFilter_m_d3_m1_e202 126 127 9.6729E-07 -RFilter_m_d3_m1_e202 126 127 1.1033E-03 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.940161E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 123 1 128 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.007397E-06 G=0.0 C= 1.133706E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 118 1 129 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.007397E-06 G=0.0 C= 1.133706E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.980919E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.980919E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 1.3959E-08 -RFilter_m_pz_d3_m1_e101 132 133 4.9166E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 9.6729E-07 -RFilter_m_pz_d3_m1_e102 133 134 1.1033E-03 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 1.3959E-08 -RFilter_m_pz_d3_m1_e201 136 137 4.9166E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 9.6729E-07 -RFilter_m_pz_d3_m1_e202 137 138 1.1033E-03 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.940161E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 1.3959E-08 -RFilter_m_mz_d3_m1_e101 141 142 4.9166E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 9.6729E-07 -RFilter_m_mz_d3_m1_e102 142 143 1.1033E-03 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.988032E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 1.3959E-08 -RFilter_m_mz_d3_m1_e201 145 146 4.9166E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 9.6729E-07 -RFilter_m_mz_d3_m1_e202 146 147 1.1033E-03 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.940161E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec deleted file mode 100644 index ec136ab..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec +++ /dev/null @@ -1,45 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -60.0 End 1 impedance list -60.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -60.0 End 2 impedance list -60.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -dB # output type (lin or dB) -2 ! order of vector fit model -log # frequency scale (log or lin) -1e5 1e9 200 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib deleted file mode 100644 index 1a8601a..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 7.950673E-02 -Rdc_c2_e1 3 11 7.950673E-02 -Rdc_c3_e1 4 12 5.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 7.950673E-02 -Rdc_c2_e2 7 14 7.950673E-02 -Rdc_c3_e2 8 15 5.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 1.167281E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 1.167281E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 9.2741E-10 -RFilter_m_d1_m1_e101 48 49 7.9126E-02 -* -CFilter_m_d1_m1_e102 49 50 5.9841E-08 -RFilter_m_d1_m1_e102 49 50 1.9750E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 9.2741E-10 -RFilter_m_d1_m1_e201 53 54 7.9126E-02 -* -CFilter_m_d1_m1_e202 54 55 5.9841E-08 -RFilter_m_d1_m1_e202 54 55 1.9750E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 1.167281E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 1.167281E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 -RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 -* -CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 -RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 -RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 -* -CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 -RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 -RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 -* -CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 -RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 -RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 -* -CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 -RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 4.143536E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 4.143536E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 9.2371E-10 -RFilter_m_d2_m1_e101 84 85 7.8589E-02 -* -CFilter_m_d2_m1_e102 85 86 5.9549E-08 -RFilter_m_d2_m1_e102 85 86 1.9192E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 9.2371E-10 -RFilter_m_d2_m1_e201 89 90 7.8589E-02 -* -CFilter_m_d2_m1_e202 90 91 5.9549E-08 -RFilter_m_d2_m1_e202 90 91 1.9192E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 4.143536E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 4.143536E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 -RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 -* -CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 -RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 -RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 -* -CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 -RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 -RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 -* -CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 -RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 -RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 -* -CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 -RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.766373E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.766373E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 2.0513E-08 -RFilter_m_d3_m1_e101 120 121 3.3143E-03 -* -CFilter_m_d3_m1_e102 121 122 1.4219E-06 -RFilter_m_d3_m1_e102 121 122 7.3248E-04 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 2.0513E-08 -RFilter_m_d3_m1_e201 125 126 3.3143E-03 -* -CFilter_m_d3_m1_e202 126 127 1.4219E-06 -RFilter_m_d3_m1_e202 126 127 7.3248E-04 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.766373E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.766373E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 -RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 -RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 -RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 -RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 -RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 -RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 -RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 -RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib deleted file mode 100644 index 73927ef..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 7.950673E-02 -Rdc_c2_e1 3 11 7.950673E-02 -Rdc_c3_e1 4 12 5.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 7.950673E-02 -Rdc_c2_e2 7 14 7.950673E-02 -Rdc_c3_e2 8 15 5.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 1.167281E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 1.167281E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 9.2741E-10 -RFilter_m_d1_m1_e101 48 49 7.9126E-02 -* -CFilter_m_d1_m1_e102 49 50 5.9841E-08 -RFilter_m_d1_m1_e102 49 50 1.9750E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 9.2741E-10 -RFilter_m_d1_m1_e201 53 54 7.9126E-02 -* -CFilter_m_d1_m1_e202 54 55 5.9841E-08 -RFilter_m_d1_m1_e202 54 55 1.9750E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 51 1 56 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 46 1 57 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.319716E-07 C= 3.170329E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 1.167281E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 1.167281E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 -RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 -* -CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 -RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 -RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 -* -CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 -RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 -RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 -* -CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 -RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 -RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 -* -CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 -RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 4.143536E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 4.143536E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 9.2371E-10 -RFilter_m_d2_m1_e101 84 85 7.8589E-02 -* -CFilter_m_d2_m1_e102 85 86 5.9549E-08 -RFilter_m_d2_m1_e102 85 86 1.9192E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 9.2371E-10 -RFilter_m_d2_m1_e201 89 90 7.8589E-02 -* -CFilter_m_d2_m1_e202 90 91 5.9549E-08 -RFilter_m_d2_m1_e202 90 91 1.9192E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 87 1 92 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 82 1 93 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.508060E-07 C= 8.783677E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 4.143536E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 4.143536E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 -RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 -* -CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 -RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 -RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 -* -CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 -RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 -RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 -* -CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 -RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 -RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 -* -CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 -RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.766373E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.766373E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 2.0513E-08 -RFilter_m_d3_m1_e101 120 121 3.3143E-03 -* -CFilter_m_d3_m1_e102 121 122 1.4219E-06 -RFilter_m_d3_m1_e102 121 122 7.3248E-04 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 2.0513E-08 -RFilter_m_d3_m1_e201 125 126 3.3143E-03 -* -CFilter_m_d3_m1_e202 126 127 1.4219E-06 -RFilter_m_d3_m1_e202 126 127 7.3248E-04 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d3_m1_e1 123 1 128 1 LTRA_T_pz_d3_m1_e1 -.MODEL LTRA_T_pz_d3_m1_e1 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d3_m1_e2 118 1 129 1 LTRA_T_mz_d3_m1_e2 -.MODEL LTRA_T_mz_d3_m1_e2 LTRA( R=0.0 L= 9.318416E-07 C= 1.217644E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.766373E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.766373E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 -RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 -RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 -RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 -RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 -RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 -RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 -RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 -RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib deleted file mode 100644 index a18cf2c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_PSpice.lib +++ /dev/null @@ -1,602 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 5 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 6 Conductor number 1. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 7 Conductor number 2. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 8 Conductor number 3. Cable name: STP_RS422_AWG_26_ESCC_3902002_V24. type: shielded_twisted_pair. conductor 3 : Shield -* node: 9 Conductor number 4. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -+ 2 3 4 5 -+ 6 7 8 9 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 10 7.950673E-02 -Rdc_c2_e1 3 11 7.950673E-02 -Rdc_c3_e1 4 12 5.000000E-02 -Rdc_c4_e1 5 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 6 13 7.950673E-02 -Rdc_c2_e2 7 14 7.950673E-02 -Rdc_c3_e2 8 15 5.000000E-02 -Rdc_c4_e2 9 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 10 19 -Vmeas_domain_decomp_c2_e1 11 22 -Vmeas_domain_decomp_c3_e1 12 25 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 19 20 16 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 20 21 17 1 1.000000E+00 -E_domain_decomp_c1_dc3_e1 21 1 18 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 22 23 16 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 23 24 17 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 24 1 18 1 1.000000E+00 -E_domain_decomp_c3_dc1_e1 25 26 16 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 26 27 17 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 27 1 18 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 16 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 16 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c3_dc1_e1 1 16 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 17 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 17 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 17 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 18 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc3_e1 1 18 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc3_e1 1 18 Vmeas_domain_decomp_c3_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 13 31 -Vmeas_domain_decomp_c2_e2 14 34 -Vmeas_domain_decomp_c3_e2 15 37 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 31 32 28 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 32 33 29 1 1.000000E+00 -E_domain_decomp_c1_dc3_e2 33 1 30 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 34 35 28 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 35 36 29 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 36 1 30 1 1.000000E+00 -E_domain_decomp_c3_dc1_e2 37 38 28 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 38 39 29 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 39 1 30 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 28 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 28 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c3_dc1_e2 1 28 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 29 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 29 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 29 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 30 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc3_e2 1 30 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc3_e2 1 30 Vmeas_domain_decomp_c3_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 16 41 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 41 1 40 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 40 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 28 43 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 43 1 42 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 42 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 40 44 1.167281E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 42 45 1.167281E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 48 46 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 48 49 9.2741E-10 -RFilter_m_d1_m1_e101 48 49 7.9126E-02 -* -CFilter_m_d1_m1_e102 49 50 5.9841E-08 -RFilter_m_d1_m1_e102 49 50 1.9750E-02 -* -RFilter_m_d1_m1_e103 50 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 44 1 48 1 9.100209E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 53 51 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 53 54 9.2741E-10 -RFilter_m_d1_m1_e201 53 54 7.9126E-02 -* -CFilter_m_d1_m1_e202 54 55 5.9841E-08 -RFilter_m_d1_m1_e202 54 55 1.9750E-02 -* -RFilter_m_d1_m1_e203 55 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 45 1 53 1 9.100209E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 51 1 56 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.319716E-07 G=0.0 C= 3.170329E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 46 1 57 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.319716E-07 G=0.0 C= 3.170329E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 51 1 1.167281E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 46 1 1.167281E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 60 40 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 60 61 9.2741E-10 -RFilter_m_pz_d1_m1_e101 60 61 7.9126E-02 -* -CFilter_m_pz_d1_m1_e102 61 62 5.9841E-08 -RFilter_m_pz_d1_m1_e102 61 62 1.9750E-02 -* -RFilter_m_pz_d1_m1_e103 62 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 56 58 60 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 64 44 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 64 65 9.2741E-10 -RFilter_m_pz_d1_m1_e201 64 65 7.9126E-02 -* -CFilter_m_pz_d1_m1_e202 65 66 5.9841E-08 -RFilter_m_pz_d1_m1_e202 65 66 1.9750E-02 -* -RFilter_m_pz_d1_m1_e203 66 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 58 1 64 1 -9.100209E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 69 42 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 69 70 9.2741E-10 -RFilter_m_mz_d1_m1_e101 69 70 7.9126E-02 -* -CFilter_m_mz_d1_m1_e102 70 71 5.9841E-08 -RFilter_m_mz_d1_m1_e102 70 71 1.9750E-02 -* -RFilter_m_mz_d1_m1_e103 71 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 57 67 69 1 1.820042E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 73 45 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 73 74 9.2741E-10 -RFilter_m_mz_d1_m1_e201 73 74 7.9126E-02 -* -CFilter_m_mz_d1_m1_e202 74 75 5.9841E-08 -RFilter_m_mz_d1_m1_e202 74 75 1.9750E-02 -* -RFilter_m_mz_d1_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 67 1 73 1 -9.100209E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 17 77 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 77 1 76 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 76 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 29 79 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 79 1 78 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 78 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 76 80 4.143536E+01 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 78 81 4.143536E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 84 82 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 84 85 9.2371E-10 -RFilter_m_d2_m1_e101 84 85 7.8589E-02 -* -CFilter_m_d2_m1_e102 85 86 5.9549E-08 -RFilter_m_d2_m1_e102 85 86 1.9192E-02 -* -RFilter_m_d2_m1_e103 86 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 80 1 84 1 9.109281E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 89 87 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 89 90 9.2371E-10 -RFilter_m_d2_m1_e201 89 90 7.8589E-02 -* -CFilter_m_d2_m1_e202 90 91 5.9549E-08 -RFilter_m_d2_m1_e202 90 91 1.9192E-02 -* -RFilter_m_d2_m1_e203 91 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 81 1 89 1 9.109281E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 87 1 92 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.508060E-07 G=0.0 C= 8.783677E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 82 1 93 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.508060E-07 G=0.0 C= 8.783677E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 87 1 4.143536E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 82 1 4.143536E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 96 76 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 96 97 9.2371E-10 -RFilter_m_pz_d2_m1_e101 96 97 7.8589E-02 -* -CFilter_m_pz_d2_m1_e102 97 98 5.9549E-08 -RFilter_m_pz_d2_m1_e102 97 98 1.9192E-02 -* -RFilter_m_pz_d2_m1_e103 98 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 92 94 96 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 100 80 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 100 101 9.2371E-10 -RFilter_m_pz_d2_m1_e201 100 101 7.8589E-02 -* -CFilter_m_pz_d2_m1_e202 101 102 5.9549E-08 -RFilter_m_pz_d2_m1_e202 101 102 1.9192E-02 -* -RFilter_m_pz_d2_m1_e203 102 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 94 1 100 1 -9.109281E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 105 78 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 105 106 9.2371E-10 -RFilter_m_mz_d2_m1_e101 105 106 7.8589E-02 -* -CFilter_m_mz_d2_m1_e102 106 107 5.9549E-08 -RFilter_m_mz_d2_m1_e102 106 107 1.9192E-02 -* -RFilter_m_mz_d2_m1_e103 107 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 93 103 105 1 1.821856E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 109 81 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 109 110 9.2371E-10 -RFilter_m_mz_d2_m1_e201 109 110 7.8589E-02 -* -CFilter_m_mz_d2_m1_e202 110 111 5.9549E-08 -RFilter_m_mz_d2_m1_e202 110 111 1.9192E-02 -* -RFilter_m_mz_d2_m1_e203 111 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 103 1 109 1 -9.109281E-01 -* -* -* DOMAIN 3 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e1 18 113 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e1 113 1 112 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e1 1 112 Vmeas_mode_decomp_d3_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d3_c1_e2 30 115 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d3_c1_m1_e2 115 1 114 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d3_c1_m1_e2 1 114 Vmeas_mode_decomp_d3_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d3_m1_e1 112 116 2.766373E+02 -* -* Modal impedance: end2 -* -RZCm_d3_m1_e2 114 117 2.766373E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e1 1 120 118 1 1.000000E+00 -* -CFilter_m_d3_m1_e101 120 121 2.0513E-08 -RFilter_m_d3_m1_e101 120 121 3.3143E-03 -* -CFilter_m_d3_m1_e102 121 122 1.4219E-06 -RFilter_m_d3_m1_e102 121 122 7.3248E-04 -* -RFilter_m_d3_m1_e103 122 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e1 116 1 120 1 9.959695E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d3_m1_e2 1 125 123 1 1.000000E+00 -* -CFilter_m_d3_m1_e201 125 126 2.0513E-08 -RFilter_m_d3_m1_e201 125 126 3.3143E-03 -* -CFilter_m_d3_m1_e202 126 127 1.4219E-06 -RFilter_m_d3_m1_e202 126 127 7.3248E-04 -* -RFilter_m_d3_m1_e203 127 1 1.0000E+00 -* -* -ES2_Filter_m_d3_m1_e2 117 1 125 1 9.959695E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d3_m1_e1 123 1 128 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.318416E-07 G=0.0 C= 1.217644E-11 -* -* Delay line for negative z propagation -* -T_mz_d3_m1_e2 118 1 129 1 LEN= 1.000000E+00 -+ R=0.0 L= 9.318416E-07 G=0.0 C= 1.217644E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d3_m1_e1 123 1 2.766373E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d3_m1_e2 118 1 2.766373E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e1 1 132 112 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e101 132 133 2.0513E-08 -RFilter_m_pz_d3_m1_e101 132 133 3.3143E-03 -* -CFilter_m_pz_d3_m1_e102 133 134 1.4219E-06 -RFilter_m_pz_d3_m1_e102 133 134 7.3248E-04 -* -RFilter_m_pz_d3_m1_e103 134 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e1 128 130 132 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d3_m1_e2 1 136 116 1 1.000000E+00 -* -CFilter_m_pz_d3_m1_e201 136 137 2.0513E-08 -RFilter_m_pz_d3_m1_e201 136 137 3.3143E-03 -* -CFilter_m_pz_d3_m1_e202 137 138 1.4219E-06 -RFilter_m_pz_d3_m1_e202 137 138 7.3248E-04 -* -RFilter_m_pz_d3_m1_e203 138 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d3_m1_e2 130 1 136 1 -9.959695E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e1 1 141 114 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e101 141 142 2.0513E-08 -RFilter_m_mz_d3_m1_e101 141 142 3.3143E-03 -* -CFilter_m_mz_d3_m1_e102 142 143 1.4219E-06 -RFilter_m_mz_d3_m1_e102 142 143 7.3248E-04 -* -RFilter_m_mz_d3_m1_e103 143 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e1 129 139 141 1 1.991939E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d3_m1_e2 1 145 117 1 1.000000E+00 -* -CFilter_m_mz_d3_m1_e201 145 146 2.0513E-08 -RFilter_m_mz_d3_m1_e201 145 146 3.3143E-03 -* -CFilter_m_mz_d3_m1_e202 146 147 1.4219E-06 -RFilter_m_mz_d3_m1_e202 146 147 7.3248E-04 -* -RFilter_m_mz_d3_m1_e203 147 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d3_m1_e2 139 1 145 1 -9.959695E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy deleted file mode 100644 index 82fa033..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.asy +++ /dev/null @@ -1,122 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 448 -LINE Normal 16 448 192 448 -LINE Normal 192 448 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 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SpiceOrder 17 -PIN 208 112 RIGHT 16 -PINATTR PinName c4_e2 -PINATTR SpiceOrder 18 -PIN 208 144 RIGHT 16 -PINATTR PinName c5_e2 -PINATTR SpiceOrder 19 -PIN 208 176 RIGHT 16 -PINATTR PinName c6_e2 -PINATTR SpiceOrder 20 -PIN 208 208 RIGHT 16 -PINATTR PinName c7_e2 -PINATTR SpiceOrder 21 -PIN 208 240 RIGHT 16 -PINATTR PinName c8_e2 -PINATTR SpiceOrder 22 -PIN 208 272 RIGHT 16 -PINATTR PinName c9_e2 -PINATTR SpiceOrder 23 -PIN 208 304 RIGHT 16 -PINATTR PinName c10_e2 -PINATTR SpiceOrder 24 -PIN 208 336 RIGHT 16 -PINATTR PinName c11_e2 -PINATTR SpiceOrder 25 -PIN 208 368 RIGHT 16 -PINATTR PinName c12_e2 -PINATTR SpiceOrder 26 -PIN 208 400 RIGHT 16 -PINATTR PinName c13_e2 -PINATTR SpiceOrder 27 -PIN 208 432 RIGHT 16 -PINATTR PinName c14_e2 -PINATTR SpiceOrder 28 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.sym 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1 -pinlabel=c6_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1500 1800 1500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=21 -T 150 150 5 8 0 0 0 8 1 -pinseq=21 -T 1800 1500 9 6 1 1 0 7 1 -pinlabel=c7_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1300 1800 1300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=22 -T 150 150 5 8 0 0 0 8 1 -pinseq=22 -T 1800 1300 9 6 1 1 0 7 1 -pinlabel=c8_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1100 1800 1100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=23 -T 150 150 5 8 0 0 0 8 1 -pinseq=23 -T 1800 1100 9 6 1 1 0 7 1 -pinlabel=c9_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 900 1800 900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=24 -T 150 150 5 8 0 0 0 8 1 -pinseq=24 -T 1800 900 9 6 1 1 0 7 1 -pinlabel=c10_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 700 1800 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=25 -T 150 150 5 8 0 0 0 8 1 -pinseq=25 -T 1800 700 9 6 1 1 0 7 1 -pinlabel=c11_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=26 -T 150 150 5 8 0 0 0 8 1 -pinseq=26 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c12_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=27 -T 150 150 5 8 0 0 0 8 1 -pinseq=27 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c13_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=28 -T 150 150 5 8 0 0 0 8 1 -pinseq=28 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c14_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 3200 8 10 1 1 0 4 1 -device=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -T 1000 3000 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -T 200 0 8 10 0 0 0 0 1 -value=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy deleted file mode 100644 index ff43870..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.asy +++ /dev/null @@ -1,122 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 448 -LINE Normal 16 448 192 448 -LINE Normal 192 448 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 0 144 16 144 -LINE Normal 0 176 16 176 -LINE Normal 0 208 16 208 -LINE Normal 0 240 16 240 -LINE Normal 0 272 16 272 -LINE Normal 0 304 16 304 -LINE Normal 0 336 16 336 -LINE Normal 0 368 16 368 -LINE Normal 0 400 16 400 -LINE Normal 0 432 16 432 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE Normal 208 112 192 112 -LINE Normal 208 144 192 144 -LINE Normal 208 176 192 176 -LINE Normal 208 208 192 208 -LINE Normal 208 240 192 240 -LINE Normal 208 272 192 272 -LINE Normal 208 304 192 304 -LINE Normal 208 336 192 336 -LINE Normal 208 368 192 368 -LINE Normal 208 400 192 400 -LINE Normal 208 432 192 432 -WINDOW 3 104 -32 centre 0 -SYMATTR Value LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 0 112 LEFT 16 -PINATTR PinName c4_e1 -PINATTR SpiceOrder 4 -PIN 0 144 LEFT 16 -PINATTR PinName c5_e1 -PINATTR SpiceOrder 5 -PIN 0 176 LEFT 16 -PINATTR PinName c6_e1 -PINATTR SpiceOrder 6 -PIN 0 208 LEFT 16 -PINATTR PinName c7_e1 -PINATTR SpiceOrder 7 -PIN 0 240 LEFT 16 -PINATTR PinName c8_e1 -PINATTR SpiceOrder 8 -PIN 0 272 LEFT 16 -PINATTR PinName c9_e1 -PINATTR SpiceOrder 9 -PIN 0 304 LEFT 16 -PINATTR PinName c10_e1 -PINATTR SpiceOrder 10 -PIN 0 336 LEFT 16 -PINATTR PinName c11_e1 -PINATTR SpiceOrder 11 -PIN 0 368 LEFT 16 -PINATTR PinName c12_e1 -PINATTR SpiceOrder 12 -PIN 0 400 LEFT 16 -PINATTR PinName c13_e1 -PINATTR SpiceOrder 13 -PIN 0 432 LEFT 16 -PINATTR PinName c14_e1 -PINATTR SpiceOrder 14 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 15 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 16 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 17 -PIN 208 112 RIGHT 16 -PINATTR PinName c4_e2 -PINATTR SpiceOrder 18 -PIN 208 144 RIGHT 16 -PINATTR PinName c5_e2 -PINATTR SpiceOrder 19 -PIN 208 176 RIGHT 16 -PINATTR PinName c6_e2 -PINATTR SpiceOrder 20 -PIN 208 208 RIGHT 16 -PINATTR PinName c7_e2 -PINATTR SpiceOrder 21 -PIN 208 240 RIGHT 16 -PINATTR PinName c8_e2 -PINATTR SpiceOrder 22 -PIN 208 272 RIGHT 16 -PINATTR PinName c9_e2 -PINATTR SpiceOrder 23 -PIN 208 304 RIGHT 16 -PINATTR PinName c10_e2 -PINATTR SpiceOrder 24 -PIN 208 336 RIGHT 16 -PINATTR PinName c11_e2 -PINATTR SpiceOrder 25 -PIN 208 368 RIGHT 16 -PINATTR PinName c12_e2 -PINATTR SpiceOrder 26 -PIN 208 400 RIGHT 16 -PINATTR PinName c13_e2 -PINATTR SpiceOrder 27 -PIN 208 432 RIGHT 16 -PINATTR PinName c14_e2 -PINATTR SpiceOrder 28 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym deleted file mode 100644 index 53f1bf3..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.sym +++ /dev/null @@ -1,327 +0,0 @@ -v 20050820 1 -L 200 0 200 2800 3 0 0 0 -1 -1 -L 200 2800 1800 2800 3 0 0 0 -1 -1 -L 1800 2800 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 2700 200 2700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 2700 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 2500 200 2500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 2500 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 2300 200 2300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 2300 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 2100 200 2100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 200 2100 9 6 1 1 0 1 1 -pinlabel=c4_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1900 200 1900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 200 1900 9 6 1 1 0 1 1 -pinlabel=c5_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1700 200 1700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 200 1700 9 6 1 1 0 1 1 -pinlabel=c6_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1500 200 1500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=7 -T 150 150 5 8 0 0 0 8 1 -pinseq=7 -T 200 1500 9 6 1 1 0 1 1 -pinlabel=c7_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1300 200 1300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=8 -T 150 150 5 8 0 0 0 8 1 -pinseq=8 -T 200 1300 9 6 1 1 0 1 1 -pinlabel=c8_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1100 200 1100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=9 -T 150 150 5 8 0 0 0 8 1 -pinseq=9 -T 200 1100 9 6 1 1 0 1 1 -pinlabel=c9_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 900 200 900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=10 -T 150 150 5 8 0 0 0 8 1 -pinseq=10 -T 200 900 9 6 1 1 0 1 1 -pinlabel=c10_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 700 200 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=11 -T 150 150 5 8 0 0 0 8 1 -pinseq=11 -T 200 700 9 6 1 1 0 1 1 -pinlabel=c11_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=12 -T 150 150 5 8 0 0 0 8 1 -pinseq=12 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c12_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=13 -T 150 150 5 8 0 0 0 8 1 -pinseq=13 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c13_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=14 -T 150 150 5 8 0 0 0 8 1 -pinseq=14 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c14_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 2700 1800 2700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=15 -T 150 150 5 8 0 0 0 8 1 -pinseq=15 -T 1800 2700 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 2500 1800 2500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=16 -T 150 150 5 8 0 0 0 8 1 -pinseq=16 -T 1800 2500 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 2300 1800 2300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=17 -T 150 150 5 8 0 0 0 8 1 -pinseq=17 -T 1800 2300 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 2100 1800 2100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=18 -T 150 150 5 8 0 0 0 8 1 -pinseq=18 -T 1800 2100 9 6 1 1 0 7 1 -pinlabel=c4_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1900 1800 1900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=19 -T 150 150 5 8 0 0 0 8 1 -pinseq=19 -T 1800 1900 9 6 1 1 0 7 1 -pinlabel=c5_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1700 1800 1700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=20 -T 150 150 5 8 0 0 0 8 1 -pinseq=20 -T 1800 1700 9 6 1 1 0 7 1 -pinlabel=c6_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1500 1800 1500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=21 -T 150 150 5 8 0 0 0 8 1 -pinseq=21 -T 1800 1500 9 6 1 1 0 7 1 -pinlabel=c7_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1300 1800 1300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=22 -T 150 150 5 8 0 0 0 8 1 -pinseq=22 -T 1800 1300 9 6 1 1 0 7 1 -pinlabel=c8_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1100 1800 1100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=23 -T 150 150 5 8 0 0 0 8 1 -pinseq=23 -T 1800 1100 9 6 1 1 0 7 1 -pinlabel=c9_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 900 1800 900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=24 -T 150 150 5 8 0 0 0 8 1 -pinseq=24 -T 1800 900 9 6 1 1 0 7 1 -pinlabel=c10_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 700 1800 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=25 -T 150 150 5 8 0 0 0 8 1 -pinseq=25 -T 1800 700 9 6 1 1 0 7 1 -pinlabel=c11_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=26 -T 150 150 5 8 0 0 0 8 1 -pinseq=26 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c12_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=27 -T 150 150 5 8 0 0 0 8 1 -pinseq=27 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c13_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=28 -T 150 150 5 8 0 0 0 8 1 -pinseq=28 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c14_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 3200 8 10 1 1 0 4 1 -device=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -T 1000 3000 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -T 200 0 8 10 0 0 0 0 1 -value=LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/README b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/README deleted file mode 100644 index d0c248d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/README +++ /dev/null @@ -1 +0,0 @@ -directory for schematic symbol files. diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy deleted file mode 100644 index ddaee47..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.asy +++ /dev/null @@ -1,122 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 448 -LINE Normal 16 448 192 448 -LINE Normal 192 448 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 0 144 16 144 -LINE Normal 0 176 16 176 -LINE Normal 0 208 16 208 -LINE Normal 0 240 16 240 -LINE Normal 0 272 16 272 -LINE Normal 0 304 16 304 -LINE Normal 0 336 16 336 -LINE Normal 0 368 16 368 -LINE Normal 0 400 16 400 -LINE Normal 0 432 16 432 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE Normal 208 112 192 112 -LINE Normal 208 144 192 144 -LINE Normal 208 176 192 176 -LINE Normal 208 208 192 208 -LINE Normal 208 240 192 240 -LINE Normal 208 272 192 272 -LINE Normal 208 304 192 304 -LINE Normal 208 336 192 336 -LINE Normal 208 368 192 368 -LINE Normal 208 400 192 400 -LINE Normal 208 432 192 432 -WINDOW 3 104 -32 centre 0 -SYMATTR Value SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 0 112 LEFT 16 -PINATTR PinName c4_e1 -PINATTR SpiceOrder 4 -PIN 0 144 LEFT 16 -PINATTR PinName c5_e1 -PINATTR SpiceOrder 5 -PIN 0 176 LEFT 16 -PINATTR PinName c6_e1 -PINATTR SpiceOrder 6 -PIN 0 208 LEFT 16 -PINATTR PinName c7_e1 -PINATTR SpiceOrder 7 -PIN 0 240 LEFT 16 -PINATTR PinName c8_e1 -PINATTR SpiceOrder 8 -PIN 0 272 LEFT 16 -PINATTR PinName c9_e1 -PINATTR SpiceOrder 9 -PIN 0 304 LEFT 16 -PINATTR PinName c10_e1 -PINATTR SpiceOrder 10 -PIN 0 336 LEFT 16 -PINATTR PinName c11_e1 -PINATTR SpiceOrder 11 -PIN 0 368 LEFT 16 -PINATTR PinName c12_e1 -PINATTR SpiceOrder 12 -PIN 0 400 LEFT 16 -PINATTR PinName c13_e1 -PINATTR SpiceOrder 13 -PIN 0 432 LEFT 16 -PINATTR PinName c14_e1 -PINATTR SpiceOrder 14 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 15 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 16 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 17 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0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy deleted file mode 100644 index ca42cb6..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.asy +++ /dev/null @@ -1,122 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 448 -LINE Normal 16 448 192 448 -LINE Normal 192 448 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 0 144 16 144 -LINE Normal 0 176 16 176 -LINE Normal 0 208 16 208 -LINE Normal 0 240 16 240 -LINE Normal 0 272 16 272 -LINE Normal 0 304 16 304 -LINE Normal 0 336 16 336 -LINE Normal 0 368 16 368 -LINE Normal 0 400 16 400 -LINE Normal 0 432 16 432 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE 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-} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=28 -T 150 150 5 8 0 0 0 8 1 -pinseq=28 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c14_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 3200 8 10 1 1 0 4 1 -device=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -T 1000 3000 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -T 200 0 8 10 0 0 0 0 1 -value=SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy deleted file mode 100644 index ebcfc2c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.asy +++ /dev/null @@ -1,42 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 128 -LINE Normal 16 128 192 128 -LINE Normal 192 128 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE Normal 208 112 192 112 -WINDOW 3 104 -32 centre 0 -SYMATTR Value STP_AWG_26_ESCC_3901025_V12_ground_plane -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_AWG_26_ESCC_3901025_V12_ground_plane_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 0 112 LEFT 16 -PINATTR PinName c4_e1 -PINATTR SpiceOrder 4 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 5 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 6 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 7 -PIN 208 112 RIGHT 16 -PINATTR PinName c4_e2 -PINATTR SpiceOrder 8 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym deleted file mode 100644 index 50dfc89..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_AWG_26_ESCC_3901025_V12_ground_plane.sym +++ /dev/null @@ -1,107 +0,0 @@ -v 20050820 1 -L 200 0 200 800 3 0 0 0 -1 -1 -L 200 800 1800 800 3 0 0 0 -1 -1 -L 1800 800 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 700 200 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 700 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c4_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 700 1800 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 700 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=7 -T 150 150 5 8 0 0 0 8 1 -pinseq=7 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=8 -T 150 150 5 8 0 0 0 8 1 -pinseq=8 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c4_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1200 8 10 1 1 0 4 1 -device=STP_AWG_26_ESCC_3901025_V12_ground_plane -T 1000 1000 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=STP_AWG_26_ESCC_3901025_V12_ground_plane -T 200 0 8 10 0 0 0 0 1 -value=STP_AWG_26_ESCC_3901025_V12_ground_plane -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_AWG_26_ESCC_3901025_V12_ground_plane_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy deleted file mode 100644 index 398f6be..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.asy +++ /dev/null @@ -1,42 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 128 -LINE Normal 16 128 192 128 -LINE Normal 192 128 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE Normal 208 112 192 112 -WINDOW 3 104 -32 centre 0 -SYMATTR Value STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 0 112 LEFT 16 -PINATTR PinName c4_e1 -PINATTR SpiceOrder 4 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 5 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 6 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 7 -PIN 208 112 RIGHT 16 -PINATTR PinName c4_e2 -PINATTR SpiceOrder 8 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym deleted file mode 100644 index 606a655..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.sym +++ /dev/null @@ -1,107 +0,0 @@ -v 20050820 1 -L 200 0 200 800 3 0 0 0 -1 -1 -L 200 800 1800 800 3 0 0 0 -1 -1 -L 1800 800 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 700 200 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 700 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c4_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 700 1800 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 700 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=7 -T 150 150 5 8 0 0 0 8 1 -pinseq=7 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=8 -T 150 150 5 8 0 0 0 8 1 -pinseq=8 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c4_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1200 8 10 1 1 0 4 1 -device=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -T 1000 1000 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -T 200 0 8 10 0 0 0 0 1 -value=STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy deleted file mode 100644 index 76138cf..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.asy +++ /dev/null @@ -1,90 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 320 -LINE Normal 16 320 192 320 -LINE Normal 192 320 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 0 112 16 112 -LINE Normal 0 144 16 144 -LINE Normal 0 176 16 176 -LINE Normal 0 208 16 208 -LINE Normal 0 240 16 240 -LINE Normal 0 272 16 272 -LINE Normal 0 304 16 304 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -LINE Normal 208 112 192 112 -LINE Normal 208 144 192 144 -LINE Normal 208 176 192 176 -LINE Normal 208 208 192 208 -LINE Normal 208 240 192 240 -LINE Normal 208 272 192 272 -LINE Normal 208 304 192 304 -WINDOW 3 104 -32 centre 0 -SYMATTR Value SpaceWire_connector_crosstalk -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SpaceWire_connector_crosstalk_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 0 112 LEFT 16 -PINATTR PinName c4_e1 -PINATTR SpiceOrder 4 -PIN 0 144 LEFT 16 -PINATTR PinName c5_e1 -PINATTR SpiceOrder 5 -PIN 0 176 LEFT 16 -PINATTR PinName c6_e1 -PINATTR SpiceOrder 6 -PIN 0 208 LEFT 16 -PINATTR PinName c7_e1 -PINATTR SpiceOrder 7 -PIN 0 240 LEFT 16 -PINATTR PinName c8_e1 -PINATTR SpiceOrder 8 -PIN 0 272 LEFT 16 -PINATTR PinName c9_e1 -PINATTR SpiceOrder 9 -PIN 0 304 LEFT 16 -PINATTR PinName c10_e1 -PINATTR SpiceOrder 10 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 11 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 12 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 13 -PIN 208 112 RIGHT 16 -PINATTR PinName c4_e2 -PINATTR SpiceOrder 14 -PIN 208 144 RIGHT 16 -PINATTR PinName c5_e2 -PINATTR SpiceOrder 15 -PIN 208 176 RIGHT 16 -PINATTR PinName c6_e2 -PINATTR SpiceOrder 16 -PIN 208 208 RIGHT 16 -PINATTR PinName c7_e2 -PINATTR SpiceOrder 17 -PIN 208 240 RIGHT 16 -PINATTR PinName c8_e2 -PINATTR SpiceOrder 18 -PIN 208 272 RIGHT 16 -PINATTR PinName c9_e2 -PINATTR SpiceOrder 19 -PIN 208 304 RIGHT 16 -PINATTR PinName c10_e2 -PINATTR SpiceOrder 20 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym deleted file mode 100644 index 443cab7..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/SpaceWire_connector_crosstalk.sym +++ /dev/null @@ -1,239 +0,0 @@ -v 20050820 1 -L 200 0 200 2000 3 0 0 0 -1 -1 -L 200 2000 1800 2000 3 0 0 0 -1 -1 -L 1800 2000 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 1900 200 1900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 1900 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1700 200 1700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 1700 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1500 200 1500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 1500 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1300 200 1300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 200 1300 9 6 1 1 0 1 1 -pinlabel=c4_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 1100 200 1100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 200 1100 9 6 1 1 0 1 1 -pinlabel=c5_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 900 200 900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 200 900 9 6 1 1 0 1 1 -pinlabel=c6_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 700 200 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=7 -T 150 150 5 8 0 0 0 8 1 -pinseq=7 -T 200 700 9 6 1 1 0 1 1 -pinlabel=c7_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=8 -T 150 150 5 8 0 0 0 8 1 -pinseq=8 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c8_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=9 -T 150 150 5 8 0 0 0 8 1 -pinseq=9 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c9_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=10 -T 150 150 5 8 0 0 0 8 1 -pinseq=10 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c10_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1900 1800 1900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=11 -T 150 150 5 8 0 0 0 8 1 -pinseq=11 -T 1800 1900 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1700 1800 1700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=12 -T 150 150 5 8 0 0 0 8 1 -pinseq=12 -T 1800 1700 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1500 1800 1500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=13 -T 150 150 5 8 0 0 0 8 1 -pinseq=13 -T 1800 1500 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1300 1800 1300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=14 -T 150 150 5 8 0 0 0 8 1 -pinseq=14 -T 1800 1300 9 6 1 1 0 7 1 -pinlabel=c4_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 1100 1800 1100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=15 -T 150 150 5 8 0 0 0 8 1 -pinseq=15 -T 1800 1100 9 6 1 1 0 7 1 -pinlabel=c5_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 900 1800 900 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=16 -T 150 150 5 8 0 0 0 8 1 -pinseq=16 -T 1800 900 9 6 1 1 0 7 1 -pinlabel=c6_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 700 1800 700 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=17 -T 150 150 5 8 0 0 0 8 1 -pinseq=17 -T 1800 700 9 6 1 1 0 7 1 -pinlabel=c7_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=18 -T 150 150 5 8 0 0 0 8 1 -pinseq=18 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c8_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=19 -T 150 150 5 8 0 0 0 8 1 -pinseq=19 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c9_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=20 -T 150 150 5 8 0 0 0 8 1 -pinseq=20 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c10_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 2400 8 10 1 1 0 4 1 -device=SpaceWire_connector_crosstalk -T 1000 2200 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=SpaceWire_connector_crosstalk -T 200 0 8 10 0 0 0 0 1 -value=SpaceWire_connector_crosstalk -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/SpaceWire_connector_crosstalk_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy deleted file mode 100644 index 7a14189..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_20_ESCC_3901002_V34_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym deleted file mode 100644 index a005cd4..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901002_V34_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_20_ESCC_3901002_V34_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_20_ESCC_3901002_V34_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_20_ESCC_3901002_V34_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy deleted file mode 100644 index 6e9cd63..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_20_ESCC_3901019_V14_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym deleted file mode 100644 index a79bbf6..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901019_V14_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_20_ESCC_3901019_V14_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_20_ESCC_3901019_V14_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_20_ESCC_3901019_V14_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy deleted file mode 100644 index bcdea72..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_20_ESCC_3901025_V10_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym deleted file mode 100644 index 59ef901..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_20_ESCC_3901025_V10_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_20_ESCC_3901025_V10_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_20_ESCC_3901025_V10_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_20_ESCC_3901025_V10_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy deleted file mode 100644 index 4c83453..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_22_ESCC_3901002_V33_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym deleted file mode 100644 index 2351600..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901002_V33_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_22_ESCC_3901002_V33_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_22_ESCC_3901002_V33_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_22_ESCC_3901002_V33_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy deleted file mode 100644 index b0f4182..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_22_ESCC_3901019_V13_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym deleted file mode 100644 index 8b2a361..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901019_V13_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_22_ESCC_3901019_V13_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_22_ESCC_3901019_V13_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_22_ESCC_3901019_V13_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy deleted file mode 100644 index 3df0eff..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_22_ESCC_3901025_V09_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym deleted file mode 100644 index 8bdbb42..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_22_ESCC_3901025_V09_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_22_ESCC_3901025_V09_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_22_ESCC_3901025_V09_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_22_ESCC_3901025_V09_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy deleted file mode 100644 index 2afcf85..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_24_ESCC_3901002_V32_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym deleted file mode 100644 index 122cd6f..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901002_V32_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_24_ESCC_3901002_V32_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_24_ESCC_3901002_V32_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_24_ESCC_3901002_V32_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy deleted file mode 100644 index c9539d8..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_24_ESCC_3901019_V12_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym deleted file mode 100644 index 55616a9..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901019_V12_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_24_ESCC_3901019_V12_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_24_ESCC_3901019_V12_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_24_ESCC_3901019_V12_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy deleted file mode 100644 index 6fa50ea..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.asy +++ /dev/null @@ -1,34 +0,0 @@ -Version 4 -SymbolType CELL -LINE Normal 16 0 16 96 -LINE Normal 16 96 192 96 -LINE Normal 192 96 192 0 -LINE Normal 192 0 16 0 -LINE Normal 0 16 16 16 -LINE Normal 0 48 16 48 -LINE Normal 0 80 16 80 -LINE Normal 208 16 192 16 -LINE Normal 208 48 192 48 -LINE Normal 208 80 192 80 -WINDOW 3 104 -32 centre 0 -SYMATTR Value TP_AWG_24_ESCC_3901025_V08_over_ground -SYMATTR Prefix X -SYMATTR ModelFile PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib -PIN 0 16 LEFT 16 -PINATTR PinName c1_e1 -PINATTR SpiceOrder 1 -PIN 0 48 LEFT 16 -PINATTR PinName c2_e1 -PINATTR SpiceOrder 2 -PIN 0 80 LEFT 16 -PINATTR PinName c3_e1 -PINATTR SpiceOrder 3 -PIN 208 16 RIGHT 16 -PINATTR PinName c1_e2 -PINATTR SpiceOrder 4 -PIN 208 48 RIGHT 16 -PINATTR PinName c2_e2 -PINATTR SpiceOrder 5 -PIN 208 80 RIGHT 16 -PINATTR PinName c3_e2 -PINATTR SpiceOrder 6 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym deleted file mode 100644 index a688bd7..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SYMBOL/TP_AWG_24_ESCC_3901025_V08_over_ground.sym +++ /dev/null @@ -1,85 +0,0 @@ -v 20050820 1 -L 200 0 200 600 3 0 0 0 -1 -1 -L 200 600 1800 600 3 0 0 0 -1 -1 -L 1800 600 1800 0 3 0 0 0 -1 -1 -L 1800 0 200 0 3 0 0 0 -1 -1 -P 0 500 200 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=1 -T 150 150 5 8 0 0 0 8 1 -pinseq=1 -T 200 500 9 6 1 1 0 1 1 -pinlabel=c1_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 300 200 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=2 -T 150 150 5 8 0 0 0 8 1 -pinseq=2 -T 200 300 9 6 1 1 0 1 1 -pinlabel=c2_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 0 100 200 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=3 -T 150 150 5 8 0 0 0 8 1 -pinseq=3 -T 200 100 9 6 1 1 0 1 1 -pinlabel=c3_e1 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 500 1800 500 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=4 -T 150 150 5 8 0 0 0 8 1 -pinseq=4 -T 1800 500 9 6 1 1 0 7 1 -pinlabel=c1_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 300 1800 300 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=5 -T 150 150 5 8 0 0 0 8 1 -pinseq=5 -T 1800 300 9 6 1 1 0 7 1 -pinlabel=c2_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -P 2000 100 1800 100 1 0 0 -{ -T 150 250 5 8 0 0 0 6 1 -pinnumber=6 -T 150 150 5 8 0 0 0 8 1 -pinseq=6 -T 1800 100 9 6 1 1 0 7 1 -pinlabel=c3_e2 -T 200 200 5 8 0 0 0 2 1 -pintype=pas -} -T 1000 1000 8 10 1 1 0 4 1 -device=TP_AWG_24_ESCC_3901025_V08_over_ground -T 1000 800 5 10 1 0 0 4 1 -refdes=X? -T 200 0 8 10 0 0 0 4 1 -description=TP_AWG_24_ESCC_3901025_V08_over_ground -T 200 0 8 10 0 0 0 0 1 -value=TP_AWG_24_ESCC_3901025_V08_over_ground -T 200 0 8 10 0 0 0 0 1 -file=PATH_TO_TRANSMISSION_LINE_SUB_CIRCUITS/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib -T 200 0 8 10 0 0 0 0 1 -numslots=0 -T 200 0 8 10 0 0 0 0 1 -symversion=0.1 diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec deleted file mode 100644 index 3a9845b..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk.spice_model_spec +++ /dev/null @@ -1,66 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SpaceWire_connector -# cable bundle length (m) -0.02 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.5 -0.0 -0.0 -0.0 --0.5 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -50.0 -50.0 -50.0 -50.0 -50.0 -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -50.0 -50.0 -50.0 -50.0 -50.0 -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e3 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -2 7 2 -dB # output type (lin or dB) - diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib deleted file mode 100644 index 0331ea1..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_LTspice.lib +++ /dev/null @@ -1,1196 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -* End 2 nodes: -* -* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -.subckt SpaceWire_connector_crosstalk -+ 2 3 4 5 6 7 8 9 10 11 -+ 12 13 14 15 16 17 18 19 20 21 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 22 1.000000E-10 -Rdc_c2_e1 3 23 1.000000E-10 -Rdc_c3_e1 4 24 1.000000E-10 -Rdc_c4_e1 5 25 1.000000E-10 -Rdc_c5_e1 6 26 1.000000E-10 -Rdc_c6_e1 7 27 1.000000E-10 -Rdc_c7_e1 8 28 1.000000E-10 -Rdc_c8_e1 9 29 1.000000E-10 -Rdc_c9_e1 10 30 1.000000E-10 -Rdc_c10_e1 11 1 1.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 12 31 1.000000E-10 -Rdc_c2_e2 13 32 1.000000E-10 -Rdc_c3_e2 14 33 1.000000E-10 -Rdc_c4_e2 15 34 1.000000E-10 -Rdc_c5_e2 16 35 1.000000E-10 -Rdc_c6_e2 17 36 1.000000E-10 -Rdc_c7_e2 18 37 1.000000E-10 -Rdc_c8_e2 19 38 1.000000E-10 -Rdc_c9_e2 20 39 1.000000E-10 -Rdc_c10_e2 21 1 1.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 22 49 -Vmeas_domain_decomp_c2_e1 23 58 -Vmeas_domain_decomp_c3_e1 24 67 -Vmeas_domain_decomp_c4_e1 25 76 -Vmeas_domain_decomp_c5_e1 26 85 -Vmeas_domain_decomp_c6_e1 27 94 -Vmeas_domain_decomp_c7_e1 28 103 -Vmeas_domain_decomp_c8_e1 29 112 -Vmeas_domain_decomp_c9_e1 30 121 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 -E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 -E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 -E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 -E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 -E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 -E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 -E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 -E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 31 139 -Vmeas_domain_decomp_c2_e2 32 148 -Vmeas_domain_decomp_c3_e2 33 157 -Vmeas_domain_decomp_c4_e2 34 166 -Vmeas_domain_decomp_c5_e2 35 175 -Vmeas_domain_decomp_c6_e2 36 184 -Vmeas_domain_decomp_c7_e2 37 193 -Vmeas_domain_decomp_c8_e2 38 202 -Vmeas_domain_decomp_c9_e2 39 211 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 -E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 -E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 -E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 -E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 -E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 -E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 -E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 -E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 40 229 -Vmeas_mode_decomp_d1_c2_e1 41 238 -Vmeas_mode_decomp_d1_c3_e1 42 247 -Vmeas_mode_decomp_d1_c4_e1 43 256 -Vmeas_mode_decomp_d1_c5_e1 44 265 -Vmeas_mode_decomp_d1_c6_e1 45 274 -Vmeas_mode_decomp_d1_c7_e1 46 283 -Vmeas_mode_decomp_d1_c8_e1 47 292 -Vmeas_mode_decomp_d1_c9_e1 48 301 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 130 319 -Vmeas_mode_decomp_d1_c2_e2 131 328 -Vmeas_mode_decomp_d1_c3_e2 132 337 -Vmeas_mode_decomp_d1_c4_e2 133 346 -Vmeas_mode_decomp_d1_c5_e2 134 355 -Vmeas_mode_decomp_d1_c6_e2 135 364 -Vmeas_mode_decomp_d1_c7_e2 136 373 -Vmeas_mode_decomp_d1_c8_e2 137 382 -Vmeas_mode_decomp_d1_c9_e2 138 391 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 220 400 3.950359E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 310 401 3.950359E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m1_e1 400 1 402 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m1_e2 401 1 403 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 403 1 404 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 402 1 405 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 403 1 3.950359E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 402 1 3.950359E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 -E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 -E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m2_e1 221 408 1.397037E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m2_e2 311 409 1.397037E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m2_e1 408 1 410 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m2_e2 409 1 411 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m2_e1 411 1 412 1 LTRA_T_pz_d1_m2_e1 -.MODEL LTRA_T_pz_d1_m2_e1 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m2_e2 410 1 413 1 LTRA_T_mz_d1_m2_e2 -.MODEL LTRA_T_mz_d1_m2_e2 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m2_e1 411 1 1.397037E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m2_e2 410 1 1.397037E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 -E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 -E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m3_e1 222 416 5.205832E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m3_e2 312 417 5.205832E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m3_e1 416 1 418 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m3_e2 417 1 419 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m3_e1 419 1 420 1 LTRA_T_pz_d1_m3_e1 -.MODEL LTRA_T_pz_d1_m3_e1 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m3_e2 418 1 421 1 LTRA_T_mz_d1_m3_e2 -.MODEL LTRA_T_mz_d1_m3_e2 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m3_e1 419 1 5.205832E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m3_e2 418 1 5.205832E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 -E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 -E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m4_e1 223 424 6.249299E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m4_e2 313 425 6.249299E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m4_e1 424 1 426 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m4_e2 425 1 427 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m4_e1 427 1 428 1 LTRA_T_pz_d1_m4_e1 -.MODEL LTRA_T_pz_d1_m4_e1 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m4_e2 426 1 429 1 LTRA_T_mz_d1_m4_e2 -.MODEL LTRA_T_mz_d1_m4_e2 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m4_e1 427 1 6.249299E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m4_e2 426 1 6.249299E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 -E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 -E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m5_e1 224 432 4.461415E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m5_e2 314 433 4.461415E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m5_e1 432 1 434 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m5_e2 433 1 435 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m5_e1 435 1 436 1 LTRA_T_pz_d1_m5_e1 -.MODEL LTRA_T_pz_d1_m5_e1 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m5_e2 434 1 437 1 LTRA_T_mz_d1_m5_e2 -.MODEL LTRA_T_mz_d1_m5_e2 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m5_e1 435 1 4.461415E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m5_e2 434 1 4.461415E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 -E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 -E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m6_e1 225 440 6.308057E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m6_e2 315 441 6.308057E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m6_e1 440 1 442 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m6_e2 441 1 443 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m6_e1 443 1 444 1 LTRA_T_pz_d1_m6_e1 -.MODEL LTRA_T_pz_d1_m6_e1 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m6_e2 442 1 445 1 LTRA_T_mz_d1_m6_e2 -.MODEL LTRA_T_mz_d1_m6_e2 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m6_e1 443 1 6.308057E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m6_e2 442 1 6.308057E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 -E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 -E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m7_e1 226 448 7.357362E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m7_e2 316 449 7.357362E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m7_e1 448 1 450 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m7_e2 449 1 451 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m7_e1 451 1 452 1 LTRA_T_pz_d1_m7_e1 -.MODEL LTRA_T_pz_d1_m7_e1 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m7_e2 450 1 453 1 LTRA_T_mz_d1_m7_e2 -.MODEL LTRA_T_mz_d1_m7_e2 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m7_e1 451 1 7.357362E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m7_e2 450 1 7.357362E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 -E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 -E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m8_e1 227 456 4.470943E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m8_e2 317 457 4.470943E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m8_e1 456 1 458 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m8_e2 457 1 459 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m8_e1 459 1 460 1 LTRA_T_pz_d1_m8_e1 -.MODEL LTRA_T_pz_d1_m8_e1 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m8_e2 458 1 461 1 LTRA_T_mz_d1_m8_e2 -.MODEL LTRA_T_mz_d1_m8_e2 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m8_e1 459 1 4.470943E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m8_e2 458 1 4.470943E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 -E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 -E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m9_e1 228 464 4.743728E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m9_e2 318 465 4.743728E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m9_e1 464 1 466 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m9_e2 465 1 467 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m9_e1 467 1 468 1 LTRA_T_pz_d1_m9_e1 -.MODEL LTRA_T_pz_d1_m9_e1 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m9_e2 466 1 469 1 LTRA_T_mz_d1_m9_e2 -.MODEL LTRA_T_mz_d1_m9_e2 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m9_e1 467 1 4.743728E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m9_e2 466 1 4.743728E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 -E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 -E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib deleted file mode 100644 index 8374dee..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_Ngspice.lib +++ /dev/null @@ -1,1196 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -* End 2 nodes: -* -* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -.subckt SpaceWire_connector_crosstalk -+ 2 3 4 5 6 7 8 9 10 11 -+ 12 13 14 15 16 17 18 19 20 21 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 22 1.000000E-10 -Rdc_c2_e1 3 23 1.000000E-10 -Rdc_c3_e1 4 24 1.000000E-10 -Rdc_c4_e1 5 25 1.000000E-10 -Rdc_c5_e1 6 26 1.000000E-10 -Rdc_c6_e1 7 27 1.000000E-10 -Rdc_c7_e1 8 28 1.000000E-10 -Rdc_c8_e1 9 29 1.000000E-10 -Rdc_c9_e1 10 30 1.000000E-10 -Rdc_c10_e1 11 1 1.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 12 31 1.000000E-10 -Rdc_c2_e2 13 32 1.000000E-10 -Rdc_c3_e2 14 33 1.000000E-10 -Rdc_c4_e2 15 34 1.000000E-10 -Rdc_c5_e2 16 35 1.000000E-10 -Rdc_c6_e2 17 36 1.000000E-10 -Rdc_c7_e2 18 37 1.000000E-10 -Rdc_c8_e2 19 38 1.000000E-10 -Rdc_c9_e2 20 39 1.000000E-10 -Rdc_c10_e2 21 1 1.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 22 49 -Vmeas_domain_decomp_c2_e1 23 58 -Vmeas_domain_decomp_c3_e1 24 67 -Vmeas_domain_decomp_c4_e1 25 76 -Vmeas_domain_decomp_c5_e1 26 85 -Vmeas_domain_decomp_c6_e1 27 94 -Vmeas_domain_decomp_c7_e1 28 103 -Vmeas_domain_decomp_c8_e1 29 112 -Vmeas_domain_decomp_c9_e1 30 121 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 -E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 -E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 -E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 -E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 -E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 -E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 -E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 -E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 31 139 -Vmeas_domain_decomp_c2_e2 32 148 -Vmeas_domain_decomp_c3_e2 33 157 -Vmeas_domain_decomp_c4_e2 34 166 -Vmeas_domain_decomp_c5_e2 35 175 -Vmeas_domain_decomp_c6_e2 36 184 -Vmeas_domain_decomp_c7_e2 37 193 -Vmeas_domain_decomp_c8_e2 38 202 -Vmeas_domain_decomp_c9_e2 39 211 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 -E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 -E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 -E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 -E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 -E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 -E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 -E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 -E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 40 229 -Vmeas_mode_decomp_d1_c2_e1 41 238 -Vmeas_mode_decomp_d1_c3_e1 42 247 -Vmeas_mode_decomp_d1_c4_e1 43 256 -Vmeas_mode_decomp_d1_c5_e1 44 265 -Vmeas_mode_decomp_d1_c6_e1 45 274 -Vmeas_mode_decomp_d1_c7_e1 46 283 -Vmeas_mode_decomp_d1_c8_e1 47 292 -Vmeas_mode_decomp_d1_c9_e1 48 301 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 130 319 -Vmeas_mode_decomp_d1_c2_e2 131 328 -Vmeas_mode_decomp_d1_c3_e2 132 337 -Vmeas_mode_decomp_d1_c4_e2 133 346 -Vmeas_mode_decomp_d1_c5_e2 134 355 -Vmeas_mode_decomp_d1_c6_e2 135 364 -Vmeas_mode_decomp_d1_c7_e2 136 373 -Vmeas_mode_decomp_d1_c8_e2 137 382 -Vmeas_mode_decomp_d1_c9_e2 138 391 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 220 400 3.950359E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 310 401 3.950359E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m1_e1 400 1 402 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m1_e2 401 1 403 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 403 1 404 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 402 1 405 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 1.317698E-07 C= 8.443892E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 403 1 3.950359E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 402 1 3.950359E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 -E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 -E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m2_e1 221 408 1.397037E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m2_e2 311 409 1.397037E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m2_e1 408 1 410 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m2_e2 409 1 411 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m2_e1 411 1 412 1 LTRA_T_pz_d1_m2_e1 -.MODEL LTRA_T_pz_d1_m2_e1 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m2_e2 410 1 413 1 LTRA_T_mz_d1_m2_e2 -.MODEL LTRA_T_mz_d1_m2_e2 LTRA( R=0.0 L= 4.660014E-07 C= 2.387654E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m2_e1 411 1 1.397037E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m2_e2 410 1 1.397037E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 -E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 -E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m3_e1 222 416 5.205832E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m3_e2 312 417 5.205832E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m3_e1 416 1 418 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m3_e2 417 1 419 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m3_e1 419 1 420 1 LTRA_T_pz_d1_m3_e1 -.MODEL LTRA_T_pz_d1_m3_e1 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m3_e2 418 1 421 1 LTRA_T_mz_d1_m3_e2 -.MODEL LTRA_T_mz_d1_m3_e2 LTRA( R=0.0 L= 1.736479E-07 C= 6.407508E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m3_e1 419 1 5.205832E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m3_e2 418 1 5.205832E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 -E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 -E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m4_e1 223 424 6.249299E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m4_e2 313 425 6.249299E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m4_e1 424 1 426 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m4_e2 425 1 427 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m4_e1 427 1 428 1 LTRA_T_pz_d1_m4_e1 -.MODEL LTRA_T_pz_d1_m4_e1 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m4_e2 426 1 429 1 LTRA_T_mz_d1_m4_e2 -.MODEL LTRA_T_mz_d1_m4_e2 LTRA( R=0.0 L= 2.084542E-07 C= 5.337624E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m4_e1 427 1 6.249299E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m4_e2 426 1 6.249299E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 -E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 -E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m5_e1 224 432 4.461415E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m5_e2 314 433 4.461415E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m5_e1 432 1 434 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m5_e2 433 1 435 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m5_e1 435 1 436 1 LTRA_T_pz_d1_m5_e1 -.MODEL LTRA_T_pz_d1_m5_e1 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m5_e2 434 1 437 1 LTRA_T_mz_d1_m5_e2 -.MODEL LTRA_T_mz_d1_m5_e2 LTRA( R=0.0 L= 1.488168E-07 C= 7.476643E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m5_e1 435 1 4.461415E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m5_e2 434 1 4.461415E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 -E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 -E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m6_e1 225 440 6.308057E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m6_e2 315 441 6.308057E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m6_e1 440 1 442 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m6_e2 441 1 443 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m6_e1 443 1 444 1 LTRA_T_pz_d1_m6_e1 -.MODEL LTRA_T_pz_d1_m6_e1 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m6_e2 442 1 445 1 LTRA_T_mz_d1_m6_e2 -.MODEL LTRA_T_mz_d1_m6_e2 LTRA( R=0.0 L= 2.104141E-07 C= 5.287906E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m6_e1 443 1 6.308057E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m6_e2 442 1 6.308057E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 -E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 -E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m7_e1 226 448 7.357362E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m7_e2 316 449 7.357362E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m7_e1 448 1 450 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m7_e2 449 1 451 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m7_e1 451 1 452 1 LTRA_T_pz_d1_m7_e1 -.MODEL LTRA_T_pz_d1_m7_e1 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m7_e2 450 1 453 1 LTRA_T_mz_d1_m7_e2 -.MODEL LTRA_T_mz_d1_m7_e2 LTRA( R=0.0 L= 2.454152E-07 C= 4.533746E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m7_e1 451 1 7.357362E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m7_e2 450 1 7.357362E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 -E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 -E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m8_e1 227 456 4.470943E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m8_e2 317 457 4.470943E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m8_e1 456 1 458 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m8_e2 457 1 459 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m8_e1 459 1 460 1 LTRA_T_pz_d1_m8_e1 -.MODEL LTRA_T_pz_d1_m8_e1 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m8_e2 458 1 461 1 LTRA_T_mz_d1_m8_e2 -.MODEL LTRA_T_mz_d1_m8_e2 LTRA( R=0.0 L= 1.491346E-07 C= 7.460710E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m8_e1 459 1 4.470943E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m8_e2 458 1 4.470943E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 -E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 -E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m9_e1 228 464 4.743728E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m9_e2 318 465 4.743728E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m9_e1 464 1 466 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m9_e2 465 1 467 1 1.000000E+00 -* -* Delay line for positive z propagation -* -O_T_pz_d1_m9_e1 467 1 468 1 LTRA_T_pz_d1_m9_e1 -.MODEL LTRA_T_pz_d1_m9_e1 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m9_e2 466 1 469 1 LTRA_T_mz_d1_m9_e2 -.MODEL LTRA_T_mz_d1_m9_e2 LTRA( R=0.0 L= 1.582337E-07 C= 7.031687E-11 LEN= 2.000000E-02 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m9_e1 467 1 4.743728E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m9_e2 466 1 4.743728E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 -E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 -E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib deleted file mode 100644 index ad693c2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/SpaceWire_connector_crosstalk_PSpice.lib +++ /dev/null @@ -1,1196 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 3 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 4 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 5 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 6 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 7 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 8 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 9 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 10 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 11 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -* End 2 nodes: -* -* node: 12 Conductor number 1. Cable name: SpaceWire_connector. type: dconnector. conductor 1 : D connector conductor -* node: 13 Conductor number 2. Cable name: SpaceWire_connector. type: dconnector. conductor 2 : D connector conductor -* node: 14 Conductor number 3. Cable name: SpaceWire_connector. type: dconnector. conductor 3 : D connector conductor -* node: 15 Conductor number 4. Cable name: SpaceWire_connector. type: dconnector. conductor 4 : D connector conductor -* node: 16 Conductor number 5. Cable name: SpaceWire_connector. type: dconnector. conductor 5 : D connector conductor -* node: 17 Conductor number 6. Cable name: SpaceWire_connector. type: dconnector. conductor 6 : D connector conductor -* node: 18 Conductor number 7. Cable name: SpaceWire_connector. type: dconnector. conductor 7 : D connector conductor -* node: 19 Conductor number 8. Cable name: SpaceWire_connector. type: dconnector. conductor 8 : D connector conductor -* node: 20 Conductor number 9. Cable name: SpaceWire_connector. type: dconnector. conductor 9 : D connector conductor -* node: 21 Conductor number 10. Cable name: SpaceWire_connector. type: dconnector. conductor 10 : D connector Shield -* -.subckt SpaceWire_connector_crosstalk -+ 2 3 4 5 6 7 8 9 10 11 -+ 12 13 14 15 16 17 18 19 20 21 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 22 1.000000E-10 -Rdc_c2_e1 3 23 1.000000E-10 -Rdc_c3_e1 4 24 1.000000E-10 -Rdc_c4_e1 5 25 1.000000E-10 -Rdc_c5_e1 6 26 1.000000E-10 -Rdc_c6_e1 7 27 1.000000E-10 -Rdc_c7_e1 8 28 1.000000E-10 -Rdc_c8_e1 9 29 1.000000E-10 -Rdc_c9_e1 10 30 1.000000E-10 -Rdc_c10_e1 11 1 1.000000E-10 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 12 31 1.000000E-10 -Rdc_c2_e2 13 32 1.000000E-10 -Rdc_c3_e2 14 33 1.000000E-10 -Rdc_c4_e2 15 34 1.000000E-10 -Rdc_c5_e2 16 35 1.000000E-10 -Rdc_c6_e2 17 36 1.000000E-10 -Rdc_c7_e2 18 37 1.000000E-10 -Rdc_c8_e2 19 38 1.000000E-10 -Rdc_c9_e2 20 39 1.000000E-10 -Rdc_c10_e2 21 1 1.000000E-10 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 22 49 -Vmeas_domain_decomp_c2_e1 23 58 -Vmeas_domain_decomp_c3_e1 24 67 -Vmeas_domain_decomp_c4_e1 25 76 -Vmeas_domain_decomp_c5_e1 26 85 -Vmeas_domain_decomp_c6_e1 27 94 -Vmeas_domain_decomp_c7_e1 28 103 -Vmeas_domain_decomp_c8_e1 29 112 -Vmeas_domain_decomp_c9_e1 30 121 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 49 50 40 1 1.000000E+00 -E_domain_decomp_c1_dc2_e1 50 51 41 1 0.000000E+00 -E_domain_decomp_c1_dc3_e1 51 52 42 1 0.000000E+00 -E_domain_decomp_c1_dc4_e1 52 53 43 1 0.000000E+00 -E_domain_decomp_c1_dc5_e1 53 54 44 1 0.000000E+00 -E_domain_decomp_c1_dc6_e1 54 55 45 1 0.000000E+00 -E_domain_decomp_c1_dc7_e1 55 56 46 1 0.000000E+00 -E_domain_decomp_c1_dc8_e1 56 57 47 1 0.000000E+00 -E_domain_decomp_c1_dc9_e1 57 1 48 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e1 58 59 40 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e1 59 60 41 1 1.000000E+00 -E_domain_decomp_c2_dc3_e1 60 61 42 1 0.000000E+00 -E_domain_decomp_c2_dc4_e1 61 62 43 1 0.000000E+00 -E_domain_decomp_c2_dc5_e1 62 63 44 1 0.000000E+00 -E_domain_decomp_c2_dc6_e1 63 64 45 1 0.000000E+00 -E_domain_decomp_c2_dc7_e1 64 65 46 1 0.000000E+00 -E_domain_decomp_c2_dc8_e1 65 66 47 1 0.000000E+00 -E_domain_decomp_c2_dc9_e1 66 1 48 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e1 67 68 40 1 0.000000E+00 -E_domain_decomp_c3_dc2_e1 68 69 41 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e1 69 70 42 1 1.000000E+00 -E_domain_decomp_c3_dc4_e1 70 71 43 1 0.000000E+00 -E_domain_decomp_c3_dc5_e1 71 72 44 1 0.000000E+00 -E_domain_decomp_c3_dc6_e1 72 73 45 1 0.000000E+00 -E_domain_decomp_c3_dc7_e1 73 74 46 1 0.000000E+00 -E_domain_decomp_c3_dc8_e1 74 75 47 1 0.000000E+00 -E_domain_decomp_c3_dc9_e1 75 1 48 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e1 76 77 40 1 0.000000E+00 -E_domain_decomp_c4_dc2_e1 77 78 41 1 0.000000E+00 -E_domain_decomp_c4_dc3_e1 78 79 42 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e1 79 80 43 1 1.000000E+00 -E_domain_decomp_c4_dc5_e1 80 81 44 1 0.000000E+00 -E_domain_decomp_c4_dc6_e1 81 82 45 1 0.000000E+00 -E_domain_decomp_c4_dc7_e1 82 83 46 1 0.000000E+00 -E_domain_decomp_c4_dc8_e1 83 84 47 1 0.000000E+00 -E_domain_decomp_c4_dc9_e1 84 1 48 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e1 85 86 40 1 0.000000E+00 -E_domain_decomp_c5_dc2_e1 86 87 41 1 0.000000E+00 -E_domain_decomp_c5_dc3_e1 87 88 42 1 0.000000E+00 -E_domain_decomp_c5_dc4_e1 88 89 43 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e1 89 90 44 1 1.000000E+00 -E_domain_decomp_c5_dc6_e1 90 91 45 1 0.000000E+00 -E_domain_decomp_c5_dc7_e1 91 92 46 1 0.000000E+00 -E_domain_decomp_c5_dc8_e1 92 93 47 1 0.000000E+00 -E_domain_decomp_c5_dc9_e1 93 1 48 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e1 94 95 40 1 0.000000E+00 -E_domain_decomp_c6_dc2_e1 95 96 41 1 0.000000E+00 -E_domain_decomp_c6_dc3_e1 96 97 42 1 0.000000E+00 -E_domain_decomp_c6_dc4_e1 97 98 43 1 0.000000E+00 -E_domain_decomp_c6_dc5_e1 98 99 44 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e1 99 100 45 1 1.000000E+00 -E_domain_decomp_c6_dc7_e1 100 101 46 1 0.000000E+00 -E_domain_decomp_c6_dc8_e1 101 102 47 1 0.000000E+00 -E_domain_decomp_c6_dc9_e1 102 1 48 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e1 103 104 40 1 0.000000E+00 -E_domain_decomp_c7_dc2_e1 104 105 41 1 0.000000E+00 -E_domain_decomp_c7_dc3_e1 105 106 42 1 0.000000E+00 -E_domain_decomp_c7_dc4_e1 106 107 43 1 0.000000E+00 -E_domain_decomp_c7_dc5_e1 107 108 44 1 0.000000E+00 -E_domain_decomp_c7_dc6_e1 108 109 45 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e1 109 110 46 1 1.000000E+00 -E_domain_decomp_c7_dc8_e1 110 111 47 1 0.000000E+00 -E_domain_decomp_c7_dc9_e1 111 1 48 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e1 112 113 40 1 0.000000E+00 -E_domain_decomp_c8_dc2_e1 113 114 41 1 0.000000E+00 -E_domain_decomp_c8_dc3_e1 114 115 42 1 0.000000E+00 -E_domain_decomp_c8_dc4_e1 115 116 43 1 0.000000E+00 -E_domain_decomp_c8_dc5_e1 116 117 44 1 0.000000E+00 -E_domain_decomp_c8_dc6_e1 117 118 45 1 0.000000E+00 -E_domain_decomp_c8_dc7_e1 118 119 46 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e1 119 120 47 1 1.000000E+00 -E_domain_decomp_c8_dc9_e1 120 1 48 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e1 121 122 40 1 0.000000E+00 -E_domain_decomp_c9_dc2_e1 122 123 41 1 0.000000E+00 -E_domain_decomp_c9_dc3_e1 123 124 42 1 0.000000E+00 -E_domain_decomp_c9_dc4_e1 124 125 43 1 0.000000E+00 -E_domain_decomp_c9_dc5_e1 125 126 44 1 0.000000E+00 -E_domain_decomp_c9_dc6_e1 126 127 45 1 0.000000E+00 -E_domain_decomp_c9_dc7_e1 127 128 46 1 0.000000E+00 -E_domain_decomp_c9_dc8_e1 128 129 47 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e1 129 1 48 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 40 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc1_e1 1 40 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc1_e1 1 40 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc1_e1 1 40 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc1_e1 1 40 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc1_e1 1 40 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc1_e1 1 40 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc1_e1 1 40 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc1_e1 1 40 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc2_e1 1 41 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc2_e1 1 41 Vmeas_domain_decomp_c2_e1 1.000000E+00 -F_domain_decomp_c3_dc2_e1 1 41 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc2_e1 1 41 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc2_e1 1 41 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc2_e1 1 41 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc2_e1 1 41 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc2_e1 1 41 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc2_e1 1 41 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc3_e1 1 42 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc3_e1 1 42 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc3_e1 1 42 Vmeas_domain_decomp_c3_e1 1.000000E+00 -F_domain_decomp_c4_dc3_e1 1 42 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc3_e1 1 42 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc3_e1 1 42 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc3_e1 1 42 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc3_e1 1 42 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc3_e1 1 42 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc4_e1 1 43 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc4_e1 1 43 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc4_e1 1 43 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc4_e1 1 43 Vmeas_domain_decomp_c4_e1 1.000000E+00 -F_domain_decomp_c5_dc4_e1 1 43 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc4_e1 1 43 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc4_e1 1 43 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc4_e1 1 43 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc4_e1 1 43 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc5_e1 1 44 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc5_e1 1 44 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc5_e1 1 44 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc5_e1 1 44 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc5_e1 1 44 Vmeas_domain_decomp_c5_e1 1.000000E+00 -F_domain_decomp_c6_dc5_e1 1 44 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc5_e1 1 44 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc5_e1 1 44 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc5_e1 1 44 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc6_e1 1 45 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc6_e1 1 45 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc6_e1 1 45 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc6_e1 1 45 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc6_e1 1 45 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc6_e1 1 45 Vmeas_domain_decomp_c6_e1 1.000000E+00 -F_domain_decomp_c7_dc6_e1 1 45 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc6_e1 1 45 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc6_e1 1 45 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc7_e1 1 46 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc7_e1 1 46 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc7_e1 1 46 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc7_e1 1 46 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc7_e1 1 46 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc7_e1 1 46 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc7_e1 1 46 Vmeas_domain_decomp_c7_e1 1.000000E+00 -F_domain_decomp_c8_dc7_e1 1 46 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc7_e1 1 46 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc8_e1 1 47 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc8_e1 1 47 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc8_e1 1 47 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc8_e1 1 47 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc8_e1 1 47 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc8_e1 1 47 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc8_e1 1 47 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc8_e1 1 47 Vmeas_domain_decomp_c8_e1 1.000000E+00 -F_domain_decomp_c9_dc8_e1 1 47 Vmeas_domain_decomp_c9_e1 0.000000E+00 -F_domain_decomp_c1_dc9_e1 1 48 Vmeas_domain_decomp_c1_e1 0.000000E+00 -F_domain_decomp_c2_dc9_e1 1 48 Vmeas_domain_decomp_c2_e1 0.000000E+00 -F_domain_decomp_c3_dc9_e1 1 48 Vmeas_domain_decomp_c3_e1 0.000000E+00 -F_domain_decomp_c4_dc9_e1 1 48 Vmeas_domain_decomp_c4_e1 0.000000E+00 -F_domain_decomp_c5_dc9_e1 1 48 Vmeas_domain_decomp_c5_e1 0.000000E+00 -F_domain_decomp_c6_dc9_e1 1 48 Vmeas_domain_decomp_c6_e1 0.000000E+00 -F_domain_decomp_c7_dc9_e1 1 48 Vmeas_domain_decomp_c7_e1 0.000000E+00 -F_domain_decomp_c8_dc9_e1 1 48 Vmeas_domain_decomp_c8_e1 0.000000E+00 -F_domain_decomp_c9_dc9_e1 1 48 Vmeas_domain_decomp_c9_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 31 139 -Vmeas_domain_decomp_c2_e2 32 148 -Vmeas_domain_decomp_c3_e2 33 157 -Vmeas_domain_decomp_c4_e2 34 166 -Vmeas_domain_decomp_c5_e2 35 175 -Vmeas_domain_decomp_c6_e2 36 184 -Vmeas_domain_decomp_c7_e2 37 193 -Vmeas_domain_decomp_c8_e2 38 202 -Vmeas_domain_decomp_c9_e2 39 211 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 139 140 130 1 1.000000E+00 -E_domain_decomp_c1_dc2_e2 140 141 131 1 0.000000E+00 -E_domain_decomp_c1_dc3_e2 141 142 132 1 0.000000E+00 -E_domain_decomp_c1_dc4_e2 142 143 133 1 0.000000E+00 -E_domain_decomp_c1_dc5_e2 143 144 134 1 0.000000E+00 -E_domain_decomp_c1_dc6_e2 144 145 135 1 0.000000E+00 -E_domain_decomp_c1_dc7_e2 145 146 136 1 0.000000E+00 -E_domain_decomp_c1_dc8_e2 146 147 137 1 0.000000E+00 -E_domain_decomp_c1_dc9_e2 147 1 138 1 -0.000000E+00 -E_domain_decomp_c2_dc1_e2 148 149 130 1 -0.000000E+00 -E_domain_decomp_c2_dc2_e2 149 150 131 1 1.000000E+00 -E_domain_decomp_c2_dc3_e2 150 151 132 1 0.000000E+00 -E_domain_decomp_c2_dc4_e2 151 152 133 1 0.000000E+00 -E_domain_decomp_c2_dc5_e2 152 153 134 1 0.000000E+00 -E_domain_decomp_c2_dc6_e2 153 154 135 1 0.000000E+00 -E_domain_decomp_c2_dc7_e2 154 155 136 1 0.000000E+00 -E_domain_decomp_c2_dc8_e2 155 156 137 1 0.000000E+00 -E_domain_decomp_c2_dc9_e2 156 1 138 1 -0.000000E+00 -E_domain_decomp_c3_dc1_e2 157 158 130 1 0.000000E+00 -E_domain_decomp_c3_dc2_e2 158 159 131 1 -0.000000E+00 -E_domain_decomp_c3_dc3_e2 159 160 132 1 1.000000E+00 -E_domain_decomp_c3_dc4_e2 160 161 133 1 0.000000E+00 -E_domain_decomp_c3_dc5_e2 161 162 134 1 0.000000E+00 -E_domain_decomp_c3_dc6_e2 162 163 135 1 0.000000E+00 -E_domain_decomp_c3_dc7_e2 163 164 136 1 0.000000E+00 -E_domain_decomp_c3_dc8_e2 164 165 137 1 0.000000E+00 -E_domain_decomp_c3_dc9_e2 165 1 138 1 -0.000000E+00 -E_domain_decomp_c4_dc1_e2 166 167 130 1 0.000000E+00 -E_domain_decomp_c4_dc2_e2 167 168 131 1 0.000000E+00 -E_domain_decomp_c4_dc3_e2 168 169 132 1 -0.000000E+00 -E_domain_decomp_c4_dc4_e2 169 170 133 1 1.000000E+00 -E_domain_decomp_c4_dc5_e2 170 171 134 1 0.000000E+00 -E_domain_decomp_c4_dc6_e2 171 172 135 1 0.000000E+00 -E_domain_decomp_c4_dc7_e2 172 173 136 1 0.000000E+00 -E_domain_decomp_c4_dc8_e2 173 174 137 1 0.000000E+00 -E_domain_decomp_c4_dc9_e2 174 1 138 1 -0.000000E+00 -E_domain_decomp_c5_dc1_e2 175 176 130 1 0.000000E+00 -E_domain_decomp_c5_dc2_e2 176 177 131 1 0.000000E+00 -E_domain_decomp_c5_dc3_e2 177 178 132 1 0.000000E+00 -E_domain_decomp_c5_dc4_e2 178 179 133 1 -0.000000E+00 -E_domain_decomp_c5_dc5_e2 179 180 134 1 1.000000E+00 -E_domain_decomp_c5_dc6_e2 180 181 135 1 0.000000E+00 -E_domain_decomp_c5_dc7_e2 181 182 136 1 0.000000E+00 -E_domain_decomp_c5_dc8_e2 182 183 137 1 0.000000E+00 -E_domain_decomp_c5_dc9_e2 183 1 138 1 -0.000000E+00 -E_domain_decomp_c6_dc1_e2 184 185 130 1 0.000000E+00 -E_domain_decomp_c6_dc2_e2 185 186 131 1 0.000000E+00 -E_domain_decomp_c6_dc3_e2 186 187 132 1 0.000000E+00 -E_domain_decomp_c6_dc4_e2 187 188 133 1 0.000000E+00 -E_domain_decomp_c6_dc5_e2 188 189 134 1 -0.000000E+00 -E_domain_decomp_c6_dc6_e2 189 190 135 1 1.000000E+00 -E_domain_decomp_c6_dc7_e2 190 191 136 1 0.000000E+00 -E_domain_decomp_c6_dc8_e2 191 192 137 1 0.000000E+00 -E_domain_decomp_c6_dc9_e2 192 1 138 1 -0.000000E+00 -E_domain_decomp_c7_dc1_e2 193 194 130 1 0.000000E+00 -E_domain_decomp_c7_dc2_e2 194 195 131 1 0.000000E+00 -E_domain_decomp_c7_dc3_e2 195 196 132 1 0.000000E+00 -E_domain_decomp_c7_dc4_e2 196 197 133 1 0.000000E+00 -E_domain_decomp_c7_dc5_e2 197 198 134 1 0.000000E+00 -E_domain_decomp_c7_dc6_e2 198 199 135 1 -0.000000E+00 -E_domain_decomp_c7_dc7_e2 199 200 136 1 1.000000E+00 -E_domain_decomp_c7_dc8_e2 200 201 137 1 0.000000E+00 -E_domain_decomp_c7_dc9_e2 201 1 138 1 -0.000000E+00 -E_domain_decomp_c8_dc1_e2 202 203 130 1 0.000000E+00 -E_domain_decomp_c8_dc2_e2 203 204 131 1 0.000000E+00 -E_domain_decomp_c8_dc3_e2 204 205 132 1 0.000000E+00 -E_domain_decomp_c8_dc4_e2 205 206 133 1 0.000000E+00 -E_domain_decomp_c8_dc5_e2 206 207 134 1 0.000000E+00 -E_domain_decomp_c8_dc6_e2 207 208 135 1 0.000000E+00 -E_domain_decomp_c8_dc7_e2 208 209 136 1 -0.000000E+00 -E_domain_decomp_c8_dc8_e2 209 210 137 1 1.000000E+00 -E_domain_decomp_c8_dc9_e2 210 1 138 1 -0.000000E+00 -E_domain_decomp_c9_dc1_e2 211 212 130 1 0.000000E+00 -E_domain_decomp_c9_dc2_e2 212 213 131 1 0.000000E+00 -E_domain_decomp_c9_dc3_e2 213 214 132 1 0.000000E+00 -E_domain_decomp_c9_dc4_e2 214 215 133 1 0.000000E+00 -E_domain_decomp_c9_dc5_e2 215 216 134 1 0.000000E+00 -E_domain_decomp_c9_dc6_e2 216 217 135 1 0.000000E+00 -E_domain_decomp_c9_dc7_e2 217 218 136 1 0.000000E+00 -E_domain_decomp_c9_dc8_e2 218 219 137 1 -0.000000E+00 -E_domain_decomp_c9_dc9_e2 219 1 138 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 130 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc1_e2 1 130 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc1_e2 1 130 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc1_e2 1 130 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc1_e2 1 130 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc1_e2 1 130 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc1_e2 1 130 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc1_e2 1 130 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc1_e2 1 130 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc2_e2 1 131 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc2_e2 1 131 Vmeas_domain_decomp_c2_e2 1.000000E+00 -F_domain_decomp_c3_dc2_e2 1 131 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc2_e2 1 131 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc2_e2 1 131 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc2_e2 1 131 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc2_e2 1 131 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc2_e2 1 131 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc2_e2 1 131 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc3_e2 1 132 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc3_e2 1 132 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc3_e2 1 132 Vmeas_domain_decomp_c3_e2 1.000000E+00 -F_domain_decomp_c4_dc3_e2 1 132 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc3_e2 1 132 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc3_e2 1 132 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc3_e2 1 132 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc3_e2 1 132 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc3_e2 1 132 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc4_e2 1 133 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc4_e2 1 133 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc4_e2 1 133 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc4_e2 1 133 Vmeas_domain_decomp_c4_e2 1.000000E+00 -F_domain_decomp_c5_dc4_e2 1 133 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc4_e2 1 133 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc4_e2 1 133 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc4_e2 1 133 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc4_e2 1 133 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc5_e2 1 134 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc5_e2 1 134 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc5_e2 1 134 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc5_e2 1 134 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc5_e2 1 134 Vmeas_domain_decomp_c5_e2 1.000000E+00 -F_domain_decomp_c6_dc5_e2 1 134 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc5_e2 1 134 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc5_e2 1 134 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc5_e2 1 134 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc6_e2 1 135 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc6_e2 1 135 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc6_e2 1 135 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc6_e2 1 135 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc6_e2 1 135 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc6_e2 1 135 Vmeas_domain_decomp_c6_e2 1.000000E+00 -F_domain_decomp_c7_dc6_e2 1 135 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc6_e2 1 135 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc6_e2 1 135 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc7_e2 1 136 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc7_e2 1 136 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc7_e2 1 136 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc7_e2 1 136 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc7_e2 1 136 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc7_e2 1 136 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc7_e2 1 136 Vmeas_domain_decomp_c7_e2 1.000000E+00 -F_domain_decomp_c8_dc7_e2 1 136 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc7_e2 1 136 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc8_e2 1 137 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc8_e2 1 137 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc8_e2 1 137 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc8_e2 1 137 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc8_e2 1 137 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc8_e2 1 137 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc8_e2 1 137 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc8_e2 1 137 Vmeas_domain_decomp_c8_e2 1.000000E+00 -F_domain_decomp_c9_dc8_e2 1 137 Vmeas_domain_decomp_c9_e2 0.000000E+00 -F_domain_decomp_c1_dc9_e2 1 138 Vmeas_domain_decomp_c1_e2 0.000000E+00 -F_domain_decomp_c2_dc9_e2 1 138 Vmeas_domain_decomp_c2_e2 0.000000E+00 -F_domain_decomp_c3_dc9_e2 1 138 Vmeas_domain_decomp_c3_e2 0.000000E+00 -F_domain_decomp_c4_dc9_e2 1 138 Vmeas_domain_decomp_c4_e2 0.000000E+00 -F_domain_decomp_c5_dc9_e2 1 138 Vmeas_domain_decomp_c5_e2 0.000000E+00 -F_domain_decomp_c6_dc9_e2 1 138 Vmeas_domain_decomp_c6_e2 0.000000E+00 -F_domain_decomp_c7_dc9_e2 1 138 Vmeas_domain_decomp_c7_e2 0.000000E+00 -F_domain_decomp_c8_dc9_e2 1 138 Vmeas_domain_decomp_c8_e2 0.000000E+00 -F_domain_decomp_c9_dc9_e2 1 138 Vmeas_domain_decomp_c9_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 40 229 -Vmeas_mode_decomp_d1_c2_e1 41 238 -Vmeas_mode_decomp_d1_c3_e1 42 247 -Vmeas_mode_decomp_d1_c4_e1 43 256 -Vmeas_mode_decomp_d1_c5_e1 44 265 -Vmeas_mode_decomp_d1_c6_e1 45 274 -Vmeas_mode_decomp_d1_c7_e1 46 283 -Vmeas_mode_decomp_d1_c8_e1 47 292 -Vmeas_mode_decomp_d1_c9_e1 48 301 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 229 230 220 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e1 230 231 221 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e1 231 232 222 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e1 232 233 223 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e1 233 234 224 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e1 234 235 225 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e1 235 236 226 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e1 236 237 227 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e1 237 1 228 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e1 238 239 220 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e1 239 240 221 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e1 240 241 222 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e1 241 242 223 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e1 242 243 224 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e1 243 244 225 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e1 244 245 226 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e1 245 246 227 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e1 246 1 228 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e1 247 248 220 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e1 248 249 221 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e1 249 250 222 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e1 250 251 223 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e1 251 252 224 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e1 252 253 225 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e1 253 254 226 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e1 254 255 227 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e1 255 1 228 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e1 256 257 220 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e1 257 258 221 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e1 258 259 222 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e1 259 260 223 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e1 260 261 224 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e1 261 262 225 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e1 262 263 226 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e1 263 264 227 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e1 264 1 228 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e1 265 266 220 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e1 266 267 221 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e1 267 268 222 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e1 268 269 223 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e1 269 270 224 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e1 270 271 225 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e1 271 272 226 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e1 272 273 227 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e1 273 1 228 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e1 274 275 220 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e1 275 276 221 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e1 276 277 222 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e1 277 278 223 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e1 278 279 224 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e1 279 280 225 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e1 280 281 226 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e1 281 282 227 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e1 282 1 228 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e1 283 284 220 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e1 284 285 221 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e1 285 286 222 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e1 286 287 223 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e1 287 288 224 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e1 288 289 225 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e1 289 290 226 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e1 290 291 227 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e1 291 1 228 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e1 292 293 220 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e1 293 294 221 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e1 294 295 222 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e1 295 296 223 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e1 296 297 224 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e1 297 298 225 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e1 298 299 226 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e1 299 300 227 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e1 300 1 228 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e1 301 302 220 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e1 302 303 221 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e1 303 304 222 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e1 304 305 223 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e1 305 306 224 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e1 306 307 225 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e1 307 308 226 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e1 308 309 227 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e1 309 1 228 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 220 Vmeas_mode_decomp_d1_c1_e1 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e1 1 220 Vmeas_mode_decomp_d1_c2_e1 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e1 1 220 Vmeas_mode_decomp_d1_c3_e1 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e1 1 220 Vmeas_mode_decomp_d1_c4_e1 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e1 1 220 Vmeas_mode_decomp_d1_c5_e1 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e1 1 220 Vmeas_mode_decomp_d1_c6_e1 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e1 1 220 Vmeas_mode_decomp_d1_c7_e1 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e1 1 220 Vmeas_mode_decomp_d1_c8_e1 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e1 1 220 Vmeas_mode_decomp_d1_c9_e1 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e1 1 221 Vmeas_mode_decomp_d1_c1_e1 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e1 1 221 Vmeas_mode_decomp_d1_c2_e1 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e1 1 221 Vmeas_mode_decomp_d1_c3_e1 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e1 1 221 Vmeas_mode_decomp_d1_c4_e1 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e1 1 221 Vmeas_mode_decomp_d1_c5_e1 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e1 1 221 Vmeas_mode_decomp_d1_c6_e1 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e1 1 221 Vmeas_mode_decomp_d1_c7_e1 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e1 1 221 Vmeas_mode_decomp_d1_c8_e1 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e1 1 221 Vmeas_mode_decomp_d1_c9_e1 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e1 1 222 Vmeas_mode_decomp_d1_c1_e1 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e1 1 222 Vmeas_mode_decomp_d1_c2_e1 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e1 1 222 Vmeas_mode_decomp_d1_c3_e1 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e1 1 222 Vmeas_mode_decomp_d1_c4_e1 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e1 1 222 Vmeas_mode_decomp_d1_c5_e1 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e1 1 222 Vmeas_mode_decomp_d1_c6_e1 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e1 1 222 Vmeas_mode_decomp_d1_c7_e1 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e1 1 222 Vmeas_mode_decomp_d1_c8_e1 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e1 1 222 Vmeas_mode_decomp_d1_c9_e1 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e1 1 223 Vmeas_mode_decomp_d1_c1_e1 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e1 1 223 Vmeas_mode_decomp_d1_c2_e1 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e1 1 223 Vmeas_mode_decomp_d1_c3_e1 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e1 1 223 Vmeas_mode_decomp_d1_c4_e1 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e1 1 223 Vmeas_mode_decomp_d1_c5_e1 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e1 1 223 Vmeas_mode_decomp_d1_c6_e1 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e1 1 223 Vmeas_mode_decomp_d1_c7_e1 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e1 1 223 Vmeas_mode_decomp_d1_c8_e1 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e1 1 223 Vmeas_mode_decomp_d1_c9_e1 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e1 1 224 Vmeas_mode_decomp_d1_c1_e1 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e1 1 224 Vmeas_mode_decomp_d1_c2_e1 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e1 1 224 Vmeas_mode_decomp_d1_c3_e1 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e1 1 224 Vmeas_mode_decomp_d1_c4_e1 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e1 1 224 Vmeas_mode_decomp_d1_c5_e1 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e1 1 224 Vmeas_mode_decomp_d1_c6_e1 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e1 1 224 Vmeas_mode_decomp_d1_c7_e1 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e1 1 224 Vmeas_mode_decomp_d1_c8_e1 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e1 1 224 Vmeas_mode_decomp_d1_c9_e1 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e1 1 225 Vmeas_mode_decomp_d1_c1_e1 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e1 1 225 Vmeas_mode_decomp_d1_c2_e1 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e1 1 225 Vmeas_mode_decomp_d1_c3_e1 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e1 1 225 Vmeas_mode_decomp_d1_c4_e1 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e1 1 225 Vmeas_mode_decomp_d1_c5_e1 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e1 1 225 Vmeas_mode_decomp_d1_c6_e1 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e1 1 225 Vmeas_mode_decomp_d1_c7_e1 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e1 1 225 Vmeas_mode_decomp_d1_c8_e1 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e1 1 225 Vmeas_mode_decomp_d1_c9_e1 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e1 1 226 Vmeas_mode_decomp_d1_c1_e1 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e1 1 226 Vmeas_mode_decomp_d1_c2_e1 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e1 1 226 Vmeas_mode_decomp_d1_c3_e1 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e1 1 226 Vmeas_mode_decomp_d1_c4_e1 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e1 1 226 Vmeas_mode_decomp_d1_c5_e1 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e1 1 226 Vmeas_mode_decomp_d1_c6_e1 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e1 1 226 Vmeas_mode_decomp_d1_c7_e1 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e1 1 226 Vmeas_mode_decomp_d1_c8_e1 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e1 1 226 Vmeas_mode_decomp_d1_c9_e1 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e1 1 227 Vmeas_mode_decomp_d1_c1_e1 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e1 1 227 Vmeas_mode_decomp_d1_c2_e1 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e1 1 227 Vmeas_mode_decomp_d1_c3_e1 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e1 1 227 Vmeas_mode_decomp_d1_c4_e1 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e1 1 227 Vmeas_mode_decomp_d1_c5_e1 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e1 1 227 Vmeas_mode_decomp_d1_c6_e1 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e1 1 227 Vmeas_mode_decomp_d1_c7_e1 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e1 1 227 Vmeas_mode_decomp_d1_c8_e1 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e1 1 227 Vmeas_mode_decomp_d1_c9_e1 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e1 1 228 Vmeas_mode_decomp_d1_c1_e1 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e1 1 228 Vmeas_mode_decomp_d1_c2_e1 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e1 1 228 Vmeas_mode_decomp_d1_c3_e1 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e1 1 228 Vmeas_mode_decomp_d1_c4_e1 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e1 1 228 Vmeas_mode_decomp_d1_c5_e1 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e1 1 228 Vmeas_mode_decomp_d1_c6_e1 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e1 1 228 Vmeas_mode_decomp_d1_c7_e1 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e1 1 228 Vmeas_mode_decomp_d1_c8_e1 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e1 1 228 Vmeas_mode_decomp_d1_c9_e1 -1.02972918E-01 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 130 319 -Vmeas_mode_decomp_d1_c2_e2 131 328 -Vmeas_mode_decomp_d1_c3_e2 132 337 -Vmeas_mode_decomp_d1_c4_e2 133 346 -Vmeas_mode_decomp_d1_c5_e2 134 355 -Vmeas_mode_decomp_d1_c6_e2 135 364 -Vmeas_mode_decomp_d1_c7_e2 136 373 -Vmeas_mode_decomp_d1_c8_e2 137 382 -Vmeas_mode_decomp_d1_c9_e2 138 391 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 319 320 310 1 1.04905835E-02 -E_mode_decomp_d1_c1_m2_e2 320 321 311 1 1.21402899E-01 -E_mode_decomp_d1_c1_m3_e2 321 322 312 1 -8.81107509E-01 -E_mode_decomp_d1_c1_m4_e2 322 323 313 1 -7.80874897E-01 -E_mode_decomp_d1_c1_m5_e2 323 324 314 1 -9.91784591E-02 -E_mode_decomp_d1_c1_m6_e2 324 325 315 1 -4.52324448E-02 -E_mode_decomp_d1_c1_m7_e2 325 326 316 1 -1.74034661E-01 -E_mode_decomp_d1_c1_m8_e2 326 327 317 1 1.08652667E-01 -E_mode_decomp_d1_c1_m9_e2 327 1 318 1 -2.18476516E-01 -E_mode_decomp_d1_c2_m1_e2 328 329 310 1 -4.03561598E-03 -E_mode_decomp_d1_c2_m2_e2 329 330 311 1 1.29953515E-01 -E_mode_decomp_d1_c2_m3_e2 330 331 312 1 -1.09395688E-01 -E_mode_decomp_d1_c2_m4_e2 331 332 313 1 -2.79320155E-01 -E_mode_decomp_d1_c2_m5_e2 332 333 314 1 2.46758336E-01 -E_mode_decomp_d1_c2_m6_e2 333 334 315 1 2.16489462E-01 -E_mode_decomp_d1_c2_m7_e2 334 335 316 1 -8.32705552E-01 -E_mode_decomp_d1_c2_m8_e2 335 336 317 1 3.46640510E-01 -E_mode_decomp_d1_c2_m9_e2 336 1 318 1 -5.73771035E-01 -E_mode_decomp_d1_c3_m1_e2 337 338 310 1 -4.53862328E-01 -E_mode_decomp_d1_c3_m2_e2 338 339 311 1 2.02624635E-01 -E_mode_decomp_d1_c3_m3_e2 339 340 312 1 -1.64936377E-01 -E_mode_decomp_d1_c3_m4_e2 340 341 313 1 1.50441223E-02 -E_mode_decomp_d1_c3_m5_e2 341 342 314 1 -7.59491583E-01 -E_mode_decomp_d1_c3_m6_e2 342 343 315 1 6.18633164E-01 -E_mode_decomp_d1_c3_m7_e2 343 344 316 1 -5.06418760E-01 -E_mode_decomp_d1_c3_m8_e2 344 345 317 1 1.95414220E-01 -E_mode_decomp_d1_c3_m9_e2 345 1 318 1 2.57060947E-02 -E_mode_decomp_d1_c4_m1_e2 346 347 310 1 3.36729951E-01 -E_mode_decomp_d1_c4_m2_e2 347 348 311 1 5.11034924E-01 -E_mode_decomp_d1_c4_m3_e2 348 349 312 1 2.77037694E-01 -E_mode_decomp_d1_c4_m4_e2 349 350 313 1 -3.22182497E-01 -E_mode_decomp_d1_c4_m5_e2 350 351 314 1 -1.54166159E-01 -E_mode_decomp_d1_c4_m6_e2 351 352 315 1 7.22661456E-01 -E_mode_decomp_d1_c4_m7_e2 352 353 316 1 2.91336070E-02 -E_mode_decomp_d1_c4_m8_e2 353 354 317 1 -2.53999566E-02 -E_mode_decomp_d1_c4_m9_e2 354 1 318 1 5.37885587E-03 -E_mode_decomp_d1_c5_m1_e2 355 356 310 1 5.44896277E-02 -E_mode_decomp_d1_c5_m2_e2 356 357 311 1 6.54316261E-01 -E_mode_decomp_d1_c5_m3_e2 357 358 312 1 3.09221102E-01 -E_mode_decomp_d1_c5_m4_e2 358 359 313 1 -5.73293623E-02 -E_mode_decomp_d1_c5_m5_e2 359 360 314 1 -4.36251676E-01 -E_mode_decomp_d1_c5_m6_e2 360 361 315 1 -3.98981090E-01 -E_mode_decomp_d1_c5_m7_e2 361 362 316 1 -8.01156567E-02 -E_mode_decomp_d1_c5_m8_e2 362 363 317 1 2.11979166E-01 -E_mode_decomp_d1_c5_m9_e2 363 1 318 1 -3.08504971E-02 -E_mode_decomp_d1_c6_m1_e2 364 365 310 1 -1.70046106E-01 -E_mode_decomp_d1_c6_m2_e2 365 366 311 1 1.02873197E-01 -E_mode_decomp_d1_c6_m3_e2 366 367 312 1 -1.23026780E-01 -E_mode_decomp_d1_c6_m4_e2 367 368 313 1 -6.18036965E-01 -E_mode_decomp_d1_c6_m5_e2 368 369 314 1 2.70507003E-01 -E_mode_decomp_d1_c6_m6_e2 369 370 315 1 1.68950522E-02 -E_mode_decomp_d1_c6_m7_e2 370 371 316 1 -6.60024329E-01 -E_mode_decomp_d1_c6_m8_e2 371 372 317 1 6.95725370E-02 -E_mode_decomp_d1_c6_m9_e2 372 1 318 1 6.96223494E-01 -E_mode_decomp_d1_c7_m1_e2 373 374 310 1 4.41793822E-01 -E_mode_decomp_d1_c7_m2_e2 374 375 311 1 2.83966139E-01 -E_mode_decomp_d1_c7_m3_e2 375 376 312 1 -5.99369401E-01 -E_mode_decomp_d1_c7_m4_e2 376 377 313 1 2.65667368E-01 -E_mode_decomp_d1_c7_m5_e2 377 378 314 1 8.86365103E-02 -E_mode_decomp_d1_c7_m6_e2 378 379 315 1 3.08423836E-01 -E_mode_decomp_d1_c7_m7_e2 379 380 316 1 -5.74536497E-01 -E_mode_decomp_d1_c7_m8_e2 380 381 317 1 3.66557763E-01 -E_mode_decomp_d1_c7_m9_e2 381 1 318 1 3.83946837E-01 -E_mode_decomp_d1_c8_m1_e2 382 383 310 1 -6.42381615E-01 -E_mode_decomp_d1_c8_m2_e2 383 384 311 1 4.65844977E-01 -E_mode_decomp_d1_c8_m3_e2 384 385 312 1 -2.34410474E-01 -E_mode_decomp_d1_c8_m4_e2 385 386 313 1 7.86113423E-02 -E_mode_decomp_d1_c8_m5_e2 386 387 314 1 3.32590847E-01 -E_mode_decomp_d1_c8_m6_e2 387 388 315 1 4.95825910E-01 -E_mode_decomp_d1_c8_m7_e2 388 389 316 1 1.05246426E-02 -E_mode_decomp_d1_c8_m8_e2 389 390 317 1 5.74798144E-01 -E_mode_decomp_d1_c8_m9_e2 390 1 318 1 1.15758690E-01 -E_mode_decomp_d1_c9_m1_e2 391 392 310 1 -3.71667560E-01 -E_mode_decomp_d1_c9_m2_e2 392 393 311 1 5.92864749E-01 -E_mode_decomp_d1_c9_m3_e2 393 394 312 1 -1.26180974E-01 -E_mode_decomp_d1_c9_m4_e2 394 395 313 1 1.38580729E-01 -E_mode_decomp_d1_c9_m5_e2 395 396 314 1 1.64004063E-01 -E_mode_decomp_d1_c9_m6_e2 396 397 315 1 1.53977995E-01 -E_mode_decomp_d1_c9_m7_e2 397 398 316 1 -1.46519314E-01 -E_mode_decomp_d1_c9_m8_e2 398 399 317 1 -7.39555524E-01 -E_mode_decomp_d1_c9_m9_e2 399 1 318 1 -1.02972918E-01 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 310 Vmeas_mode_decomp_d1_c1_e2 1.04905835E-02 -F_mode_decomp_d1_c2_m1_e2 1 310 Vmeas_mode_decomp_d1_c2_e2 -4.03561598E-03 -F_mode_decomp_d1_c3_m1_e2 1 310 Vmeas_mode_decomp_d1_c3_e2 -4.53862328E-01 -F_mode_decomp_d1_c4_m1_e2 1 310 Vmeas_mode_decomp_d1_c4_e2 3.36729951E-01 -F_mode_decomp_d1_c5_m1_e2 1 310 Vmeas_mode_decomp_d1_c5_e2 5.44896277E-02 -F_mode_decomp_d1_c6_m1_e2 1 310 Vmeas_mode_decomp_d1_c6_e2 -1.70046106E-01 -F_mode_decomp_d1_c7_m1_e2 1 310 Vmeas_mode_decomp_d1_c7_e2 4.41793822E-01 -F_mode_decomp_d1_c8_m1_e2 1 310 Vmeas_mode_decomp_d1_c8_e2 -6.42381615E-01 -F_mode_decomp_d1_c9_m1_e2 1 310 Vmeas_mode_decomp_d1_c9_e2 -3.71667560E-01 -F_mode_decomp_d1_c1_m2_e2 1 311 Vmeas_mode_decomp_d1_c1_e2 1.21402899E-01 -F_mode_decomp_d1_c2_m2_e2 1 311 Vmeas_mode_decomp_d1_c2_e2 1.29953515E-01 -F_mode_decomp_d1_c3_m2_e2 1 311 Vmeas_mode_decomp_d1_c3_e2 2.02624635E-01 -F_mode_decomp_d1_c4_m2_e2 1 311 Vmeas_mode_decomp_d1_c4_e2 5.11034924E-01 -F_mode_decomp_d1_c5_m2_e2 1 311 Vmeas_mode_decomp_d1_c5_e2 6.54316261E-01 -F_mode_decomp_d1_c6_m2_e2 1 311 Vmeas_mode_decomp_d1_c6_e2 1.02873197E-01 -F_mode_decomp_d1_c7_m2_e2 1 311 Vmeas_mode_decomp_d1_c7_e2 2.83966139E-01 -F_mode_decomp_d1_c8_m2_e2 1 311 Vmeas_mode_decomp_d1_c8_e2 4.65844977E-01 -F_mode_decomp_d1_c9_m2_e2 1 311 Vmeas_mode_decomp_d1_c9_e2 5.92864749E-01 -F_mode_decomp_d1_c1_m3_e2 1 312 Vmeas_mode_decomp_d1_c1_e2 -8.81107509E-01 -F_mode_decomp_d1_c2_m3_e2 1 312 Vmeas_mode_decomp_d1_c2_e2 -1.09395688E-01 -F_mode_decomp_d1_c3_m3_e2 1 312 Vmeas_mode_decomp_d1_c3_e2 -1.64936377E-01 -F_mode_decomp_d1_c4_m3_e2 1 312 Vmeas_mode_decomp_d1_c4_e2 2.77037694E-01 -F_mode_decomp_d1_c5_m3_e2 1 312 Vmeas_mode_decomp_d1_c5_e2 3.09221102E-01 -F_mode_decomp_d1_c6_m3_e2 1 312 Vmeas_mode_decomp_d1_c6_e2 -1.23026780E-01 -F_mode_decomp_d1_c7_m3_e2 1 312 Vmeas_mode_decomp_d1_c7_e2 -5.99369401E-01 -F_mode_decomp_d1_c8_m3_e2 1 312 Vmeas_mode_decomp_d1_c8_e2 -2.34410474E-01 -F_mode_decomp_d1_c9_m3_e2 1 312 Vmeas_mode_decomp_d1_c9_e2 -1.26180974E-01 -F_mode_decomp_d1_c1_m4_e2 1 313 Vmeas_mode_decomp_d1_c1_e2 -7.80874897E-01 -F_mode_decomp_d1_c2_m4_e2 1 313 Vmeas_mode_decomp_d1_c2_e2 -2.79320155E-01 -F_mode_decomp_d1_c3_m4_e2 1 313 Vmeas_mode_decomp_d1_c3_e2 1.50441223E-02 -F_mode_decomp_d1_c4_m4_e2 1 313 Vmeas_mode_decomp_d1_c4_e2 -3.22182497E-01 -F_mode_decomp_d1_c5_m4_e2 1 313 Vmeas_mode_decomp_d1_c5_e2 -5.73293623E-02 -F_mode_decomp_d1_c6_m4_e2 1 313 Vmeas_mode_decomp_d1_c6_e2 -6.18036965E-01 -F_mode_decomp_d1_c7_m4_e2 1 313 Vmeas_mode_decomp_d1_c7_e2 2.65667368E-01 -F_mode_decomp_d1_c8_m4_e2 1 313 Vmeas_mode_decomp_d1_c8_e2 7.86113423E-02 -F_mode_decomp_d1_c9_m4_e2 1 313 Vmeas_mode_decomp_d1_c9_e2 1.38580729E-01 -F_mode_decomp_d1_c1_m5_e2 1 314 Vmeas_mode_decomp_d1_c1_e2 -9.91784591E-02 -F_mode_decomp_d1_c2_m5_e2 1 314 Vmeas_mode_decomp_d1_c2_e2 2.46758336E-01 -F_mode_decomp_d1_c3_m5_e2 1 314 Vmeas_mode_decomp_d1_c3_e2 -7.59491583E-01 -F_mode_decomp_d1_c4_m5_e2 1 314 Vmeas_mode_decomp_d1_c4_e2 -1.54166159E-01 -F_mode_decomp_d1_c5_m5_e2 1 314 Vmeas_mode_decomp_d1_c5_e2 -4.36251676E-01 -F_mode_decomp_d1_c6_m5_e2 1 314 Vmeas_mode_decomp_d1_c6_e2 2.70507003E-01 -F_mode_decomp_d1_c7_m5_e2 1 314 Vmeas_mode_decomp_d1_c7_e2 8.86365103E-02 -F_mode_decomp_d1_c8_m5_e2 1 314 Vmeas_mode_decomp_d1_c8_e2 3.32590847E-01 -F_mode_decomp_d1_c9_m5_e2 1 314 Vmeas_mode_decomp_d1_c9_e2 1.64004063E-01 -F_mode_decomp_d1_c1_m6_e2 1 315 Vmeas_mode_decomp_d1_c1_e2 -4.52324448E-02 -F_mode_decomp_d1_c2_m6_e2 1 315 Vmeas_mode_decomp_d1_c2_e2 2.16489462E-01 -F_mode_decomp_d1_c3_m6_e2 1 315 Vmeas_mode_decomp_d1_c3_e2 6.18633164E-01 -F_mode_decomp_d1_c4_m6_e2 1 315 Vmeas_mode_decomp_d1_c4_e2 7.22661456E-01 -F_mode_decomp_d1_c5_m6_e2 1 315 Vmeas_mode_decomp_d1_c5_e2 -3.98981090E-01 -F_mode_decomp_d1_c6_m6_e2 1 315 Vmeas_mode_decomp_d1_c6_e2 1.68950522E-02 -F_mode_decomp_d1_c7_m6_e2 1 315 Vmeas_mode_decomp_d1_c7_e2 3.08423836E-01 -F_mode_decomp_d1_c8_m6_e2 1 315 Vmeas_mode_decomp_d1_c8_e2 4.95825910E-01 -F_mode_decomp_d1_c9_m6_e2 1 315 Vmeas_mode_decomp_d1_c9_e2 1.53977995E-01 -F_mode_decomp_d1_c1_m7_e2 1 316 Vmeas_mode_decomp_d1_c1_e2 -1.74034661E-01 -F_mode_decomp_d1_c2_m7_e2 1 316 Vmeas_mode_decomp_d1_c2_e2 -8.32705552E-01 -F_mode_decomp_d1_c3_m7_e2 1 316 Vmeas_mode_decomp_d1_c3_e2 -5.06418760E-01 -F_mode_decomp_d1_c4_m7_e2 1 316 Vmeas_mode_decomp_d1_c4_e2 2.91336070E-02 -F_mode_decomp_d1_c5_m7_e2 1 316 Vmeas_mode_decomp_d1_c5_e2 -8.01156567E-02 -F_mode_decomp_d1_c6_m7_e2 1 316 Vmeas_mode_decomp_d1_c6_e2 -6.60024329E-01 -F_mode_decomp_d1_c7_m7_e2 1 316 Vmeas_mode_decomp_d1_c7_e2 -5.74536497E-01 -F_mode_decomp_d1_c8_m7_e2 1 316 Vmeas_mode_decomp_d1_c8_e2 1.05246426E-02 -F_mode_decomp_d1_c9_m7_e2 1 316 Vmeas_mode_decomp_d1_c9_e2 -1.46519314E-01 -F_mode_decomp_d1_c1_m8_e2 1 317 Vmeas_mode_decomp_d1_c1_e2 1.08652667E-01 -F_mode_decomp_d1_c2_m8_e2 1 317 Vmeas_mode_decomp_d1_c2_e2 3.46640510E-01 -F_mode_decomp_d1_c3_m8_e2 1 317 Vmeas_mode_decomp_d1_c3_e2 1.95414220E-01 -F_mode_decomp_d1_c4_m8_e2 1 317 Vmeas_mode_decomp_d1_c4_e2 -2.53999566E-02 -F_mode_decomp_d1_c5_m8_e2 1 317 Vmeas_mode_decomp_d1_c5_e2 2.11979166E-01 -F_mode_decomp_d1_c6_m8_e2 1 317 Vmeas_mode_decomp_d1_c6_e2 6.95725370E-02 -F_mode_decomp_d1_c7_m8_e2 1 317 Vmeas_mode_decomp_d1_c7_e2 3.66557763E-01 -F_mode_decomp_d1_c8_m8_e2 1 317 Vmeas_mode_decomp_d1_c8_e2 5.74798144E-01 -F_mode_decomp_d1_c9_m8_e2 1 317 Vmeas_mode_decomp_d1_c9_e2 -7.39555524E-01 -F_mode_decomp_d1_c1_m9_e2 1 318 Vmeas_mode_decomp_d1_c1_e2 -2.18476516E-01 -F_mode_decomp_d1_c2_m9_e2 1 318 Vmeas_mode_decomp_d1_c2_e2 -5.73771035E-01 -F_mode_decomp_d1_c3_m9_e2 1 318 Vmeas_mode_decomp_d1_c3_e2 2.57060947E-02 -F_mode_decomp_d1_c4_m9_e2 1 318 Vmeas_mode_decomp_d1_c4_e2 5.37885587E-03 -F_mode_decomp_d1_c5_m9_e2 1 318 Vmeas_mode_decomp_d1_c5_e2 -3.08504971E-02 -F_mode_decomp_d1_c6_m9_e2 1 318 Vmeas_mode_decomp_d1_c6_e2 6.96223494E-01 -F_mode_decomp_d1_c7_m9_e2 1 318 Vmeas_mode_decomp_d1_c7_e2 3.83946837E-01 -F_mode_decomp_d1_c8_m9_e2 1 318 Vmeas_mode_decomp_d1_c8_e2 1.15758690E-01 -F_mode_decomp_d1_c9_m9_e2 1 318 Vmeas_mode_decomp_d1_c9_e2 -1.02972918E-01 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 220 400 3.950359E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 310 401 3.950359E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m1_e1 400 1 402 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m1_e2 401 1 403 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 403 1 404 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.317698E-07 G=0.0 C= 8.443892E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 402 1 405 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.317698E-07 G=0.0 C= 8.443892E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 403 1 3.950359E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 402 1 3.950359E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m1_e1 404 406 220 1 2.000000E+00 -E_m_pz_d1_m1_e2 406 1 400 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m1_e1 405 407 310 1 2.000000E+00 -E_m_mz_d1_m1_e2 407 1 401 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m2_e1 221 408 1.397037E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m2_e2 311 409 1.397037E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m2_e1 408 1 410 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m2_e2 409 1 411 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m2_e1 411 1 412 1 LEN= 2.000000E-02 -+ R=0.0 L= 4.660014E-07 G=0.0 C= 2.387654E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m2_e2 410 1 413 1 LEN= 2.000000E-02 -+ R=0.0 L= 4.660014E-07 G=0.0 C= 2.387654E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m2_e1 411 1 1.397037E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m2_e2 410 1 1.397037E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m2_e1 412 414 221 1 2.000000E+00 -E_m_pz_d1_m2_e2 414 1 408 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m2_e1 413 415 311 1 2.000000E+00 -E_m_mz_d1_m2_e2 415 1 409 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m3_e1 222 416 5.205832E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m3_e2 312 417 5.205832E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m3_e1 416 1 418 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m3_e2 417 1 419 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m3_e1 419 1 420 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.736479E-07 G=0.0 C= 6.407508E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m3_e2 418 1 421 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.736479E-07 G=0.0 C= 6.407508E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m3_e1 419 1 5.205832E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m3_e2 418 1 5.205832E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m3_e1 420 422 222 1 2.000000E+00 -E_m_pz_d1_m3_e2 422 1 416 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m3_e1 421 423 312 1 2.000000E+00 -E_m_mz_d1_m3_e2 423 1 417 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m4_e1 223 424 6.249299E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m4_e2 313 425 6.249299E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m4_e1 424 1 426 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m4_e2 425 1 427 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m4_e1 427 1 428 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.084542E-07 G=0.0 C= 5.337624E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m4_e2 426 1 429 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.084542E-07 G=0.0 C= 5.337624E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m4_e1 427 1 6.249299E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m4_e2 426 1 6.249299E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m4_e1 428 430 223 1 2.000000E+00 -E_m_pz_d1_m4_e2 430 1 424 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m4_e1 429 431 313 1 2.000000E+00 -E_m_mz_d1_m4_e2 431 1 425 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m5_e1 224 432 4.461415E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m5_e2 314 433 4.461415E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m5_e1 432 1 434 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m5_e2 433 1 435 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m5_e1 435 1 436 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.488168E-07 G=0.0 C= 7.476643E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m5_e2 434 1 437 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.488168E-07 G=0.0 C= 7.476643E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m5_e1 435 1 4.461415E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m5_e2 434 1 4.461415E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m5_e1 436 438 224 1 2.000000E+00 -E_m_pz_d1_m5_e2 438 1 432 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m5_e1 437 439 314 1 2.000000E+00 -E_m_mz_d1_m5_e2 439 1 433 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m6_e1 225 440 6.308057E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m6_e2 315 441 6.308057E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m6_e1 440 1 442 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m6_e2 441 1 443 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m6_e1 443 1 444 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.104141E-07 G=0.0 C= 5.287906E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m6_e2 442 1 445 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.104141E-07 G=0.0 C= 5.287906E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m6_e1 443 1 6.308057E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m6_e2 442 1 6.308057E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m6_e1 444 446 225 1 2.000000E+00 -E_m_pz_d1_m6_e2 446 1 440 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m6_e1 445 447 315 1 2.000000E+00 -E_m_mz_d1_m6_e2 447 1 441 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m7_e1 226 448 7.357362E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m7_e2 316 449 7.357362E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m7_e1 448 1 450 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m7_e2 449 1 451 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m7_e1 451 1 452 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.454152E-07 G=0.0 C= 4.533746E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m7_e2 450 1 453 1 LEN= 2.000000E-02 -+ R=0.0 L= 2.454152E-07 G=0.0 C= 4.533746E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m7_e1 451 1 7.357362E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m7_e2 450 1 7.357362E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m7_e1 452 454 226 1 2.000000E+00 -E_m_pz_d1_m7_e2 454 1 448 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m7_e1 453 455 316 1 2.000000E+00 -E_m_mz_d1_m7_e2 455 1 449 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m8_e1 227 456 4.470943E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m8_e2 317 457 4.470943E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m8_e1 456 1 458 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m8_e2 457 1 459 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m8_e1 459 1 460 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.491346E-07 G=0.0 C= 7.460710E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m8_e2 458 1 461 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.491346E-07 G=0.0 C= 7.460710E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m8_e1 459 1 4.470943E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m8_e2 458 1 4.470943E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m8_e1 460 462 227 1 2.000000E+00 -E_m_pz_d1_m8_e2 462 1 456 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m8_e1 461 463 317 1 2.000000E+00 -E_m_mz_d1_m8_e2 463 1 457 1 -1.000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m9_e1 228 464 4.743728E+01 -* -* Modal impedance: end2 -* -RZCm_d1_m9_e2 318 465 4.743728E+01 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -E_m_d1_m9_e1 464 1 466 1 1.000000E+00 -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -E_m_d1_m9_e2 465 1 467 1 1.000000E+00 -* -* Delay line for positive z propagation -* -T_pz_d1_m9_e1 467 1 468 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.582337E-07 G=0.0 C= 7.031687E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m9_e2 466 1 469 1 LEN= 2.000000E-02 -+ R=0.0 L= 1.582337E-07 G=0.0 C= 7.031687E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m9_e1 467 1 4.743728E+01 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m9_e2 466 1 4.743728E+01 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -E_m_pz_d1_m9_e1 468 470 228 1 2.000000E+00 -E_m_pz_d1_m9_e2 470 1 464 1 -1.000000E+00 -* -* Delay line frequency dependent controlled sources for negative z propagation -* -E_m_mz_d1_m9_e1 469 471 318 1 2.000000E+00 -E_m_mz_d1_m9_e2 471 1 465 1 -1.000000E+00 -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec deleted file mode 100644 index 93debbc..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901002_V34_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib deleted file mode 100644 index d75f038..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901002_V34_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.690138E-02 -Rdc_c2_e1 3 9 1.690138E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.690138E-02 -Rdc_c2_e2 6 11 1.690138E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.212323E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.212323E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.7662E-08 -RFilter_m_d1_m1_e101 32 33 1.6922E-02 -* -CFilter_m_d1_m1_e102 33 34 2.2511E-06 -RFilter_m_d1_m1_e102 33 34 4.1351E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.7662E-08 -RFilter_m_d1_m1_e201 37 38 1.6922E-02 -* -CFilter_m_d1_m1_e202 38 39 2.2511E-06 -RFilter_m_d1_m1_e202 38 39 4.1351E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.212323E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.212323E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.002422E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.002422E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8726E-07 -RFilter_m_d2_m1_e101 68 69 3.3895E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1347E-05 -RFilter_m_d2_m1_e102 69 70 8.2611E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8726E-07 -RFilter_m_d2_m1_e201 73 74 3.3895E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1347E-05 -RFilter_m_d2_m1_e202 74 75 8.2611E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.002422E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.002422E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib deleted file mode 100644 index db746f3..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901002_V34_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.690138E-02 -Rdc_c2_e1 3 9 1.690138E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.690138E-02 -Rdc_c2_e2 6 11 1.690138E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.212323E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.212323E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.7662E-08 -RFilter_m_d1_m1_e101 32 33 1.6922E-02 -* -CFilter_m_d1_m1_e102 33 34 2.2511E-06 -RFilter_m_d1_m1_e102 33 34 4.1351E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.7662E-08 -RFilter_m_d1_m1_e201 37 38 1.6922E-02 -* -CFilter_m_d1_m1_e202 38 39 2.2511E-06 -RFilter_m_d1_m1_e202 38 39 4.1351E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.043875E-07 C= 2.751446E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.212323E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.212323E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.002422E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.002422E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8726E-07 -RFilter_m_d2_m1_e101 68 69 3.3895E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1347E-05 -RFilter_m_d2_m1_e102 69 70 8.2611E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8726E-07 -RFilter_m_d2_m1_e201 73 74 3.3895E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1347E-05 -RFilter_m_d2_m1_e202 74 75 8.2611E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020445E-06 C= 1.131999E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.002422E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.002422E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib deleted file mode 100644 index 8eab036..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901002_V34_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901002_V34. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901002_V34_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.690138E-02 -Rdc_c2_e1 3 9 1.690138E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.690138E-02 -Rdc_c2_e2 6 11 1.690138E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.212323E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.212323E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.7662E-08 -RFilter_m_d1_m1_e101 32 33 1.6922E-02 -* -CFilter_m_d1_m1_e102 33 34 2.2511E-06 -RFilter_m_d1_m1_e102 33 34 4.1351E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.793773E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.7662E-08 -RFilter_m_d1_m1_e201 37 38 1.6922E-02 -* -CFilter_m_d1_m1_e202 38 39 2.2511E-06 -RFilter_m_d1_m1_e202 38 39 4.1351E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.793773E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.043875E-07 G=0.0 C= 2.751446E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.043875E-07 G=0.0 C= 2.751446E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.212323E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.212323E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.7662E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.6922E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.2511E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.1351E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.7662E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.6922E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.2511E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.1351E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.793773E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.7662E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.6922E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.2511E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.1351E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.958755E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.7662E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.6922E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.2511E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.1351E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.793773E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.002422E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.002422E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8726E-07 -RFilter_m_d2_m1_e101 68 69 3.3895E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1347E-05 -RFilter_m_d2_m1_e102 69 70 8.2611E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.958021E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8726E-07 -RFilter_m_d2_m1_e201 73 74 3.3895E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1347E-05 -RFilter_m_d2_m1_e202 74 75 8.2611E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.958021E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.020445E-06 G=0.0 C= 1.131999E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.020445E-06 G=0.0 C= 1.131999E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.002422E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.002422E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8726E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.3895E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1347E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.2611E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8726E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.3895E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1347E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.2611E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.958021E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8726E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.3895E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1347E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.2611E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991604E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8726E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.3895E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1347E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.2611E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.958021E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec deleted file mode 100644 index 0f180f2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901019_V14_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib deleted file mode 100644 index 0ccf4c0..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901019_V14_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.380492E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.380492E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 4.2140E-08 -RFilter_m_d1_m1_e101 32 33 1.5109E-02 -* -CFilter_m_d1_m1_e102 33 34 2.5234E-06 -RFilter_m_d1_m1_e102 33 34 3.6877E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 4.2140E-08 -RFilter_m_d1_m1_e201 37 38 1.5109E-02 -* -CFilter_m_d1_m1_e202 38 39 2.5234E-06 -RFilter_m_d1_m1_e202 38 39 3.6877E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.380492E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.380492E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 -RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 -RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 -RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 -RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 2.991746E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 2.991746E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8325E-07 -RFilter_m_d2_m1_e101 68 69 3.4623E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1104E-05 -RFilter_m_d2_m1_e102 69 70 8.4317E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8325E-07 -RFilter_m_d2_m1_e201 73 74 3.4623E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1104E-05 -RFilter_m_d2_m1_e202 74 75 8.4317E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 2.991746E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 2.991746E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib deleted file mode 100644 index ac6f851..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901019_V14_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.380492E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.380492E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 4.2140E-08 -RFilter_m_d1_m1_e101 32 33 1.5109E-02 -* -CFilter_m_d1_m1_e102 33 34 2.5234E-06 -RFilter_m_d1_m1_e102 33 34 3.6877E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 4.2140E-08 -RFilter_m_d1_m1_e201 37 38 1.5109E-02 -* -CFilter_m_d1_m1_e202 38 39 2.5234E-06 -RFilter_m_d1_m1_e202 38 39 3.6877E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.604826E-07 C= 2.416269E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.380492E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.380492E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 -RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 -RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 -RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 -RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 2.991746E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 2.991746E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8325E-07 -RFilter_m_d2_m1_e101 68 69 3.4623E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1104E-05 -RFilter_m_d2_m1_e102 69 70 8.4317E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8325E-07 -RFilter_m_d2_m1_e201 73 74 3.4623E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1104E-05 -RFilter_m_d2_m1_e202 74 75 8.4317E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.024693E-06 C= 1.144838E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 2.991746E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 2.991746E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib deleted file mode 100644 index b53191f..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901019_V14_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901019_V14. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901019_V14_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.380492E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.380492E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 4.2140E-08 -RFilter_m_d1_m1_e101 32 33 1.5109E-02 -* -CFilter_m_d1_m1_e102 33 34 2.5234E-06 -RFilter_m_d1_m1_e102 33 34 3.6877E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.815497E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 4.2140E-08 -RFilter_m_d1_m1_e201 37 38 1.5109E-02 -* -CFilter_m_d1_m1_e202 38 39 2.5234E-06 -RFilter_m_d1_m1_e202 38 39 3.6877E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.815497E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.604826E-07 G=0.0 C= 2.416269E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.604826E-07 G=0.0 C= 2.416269E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.380492E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.380492E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 4.2140E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.5109E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 2.5234E-06 -RFilter_m_pz_d1_m1_e102 45 46 3.6877E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 4.2140E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.5109E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 2.5234E-06 -RFilter_m_pz_d1_m1_e202 49 50 3.6877E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.815497E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 4.2140E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.5109E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 2.5234E-06 -RFilter_m_mz_d1_m1_e102 54 55 3.6877E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.963099E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 4.2140E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.5109E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 2.5234E-06 -RFilter_m_mz_d1_m1_e202 58 59 3.6877E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.815497E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 2.991746E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 2.991746E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8325E-07 -RFilter_m_d2_m1_e101 68 69 3.4623E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1104E-05 -RFilter_m_d2_m1_e102 69 70 8.4317E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957130E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8325E-07 -RFilter_m_d2_m1_e201 73 74 3.4623E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1104E-05 -RFilter_m_d2_m1_e202 74 75 8.4317E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957130E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.024693E-06 G=0.0 C= 1.144838E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.024693E-06 G=0.0 C= 1.144838E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 2.991746E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 2.991746E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8325E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4623E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1104E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.4317E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8325E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4623E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1104E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.4317E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957130E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8325E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4623E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1104E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.4317E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991426E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8325E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4623E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1104E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.4317E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957130E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec deleted file mode 100644 index f7b443b..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901025_V10_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib deleted file mode 100644 index e7ee03c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901025_V10_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.062356E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.062356E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2388E-08 -RFilter_m_d1_m1_e101 32 33 1.9686E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9306E-06 -RFilter_m_d1_m1_e102 33 34 4.8091E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2388E-08 -RFilter_m_d1_m1_e201 37 38 1.9686E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9306E-06 -RFilter_m_d1_m1_e202 38 39 4.8091E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.062356E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.062356E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.023380E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.023380E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8519E-07 -RFilter_m_d2_m1_e101 68 69 3.4260E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1221E-05 -RFilter_m_d2_m1_e102 69 70 8.3430E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8519E-07 -RFilter_m_d2_m1_e201 73 74 3.4260E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1221E-05 -RFilter_m_d2_m1_e202 74 75 8.3430E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.023380E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.023380E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib deleted file mode 100644 index b30534d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901025_V10_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.062356E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.062356E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2388E-08 -RFilter_m_d1_m1_e101 32 33 1.9686E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9306E-06 -RFilter_m_d1_m1_e102 33 34 4.8091E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2388E-08 -RFilter_m_d1_m1_e201 37 38 1.9686E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9306E-06 -RFilter_m_d1_m1_e202 38 39 4.8091E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.543639E-07 C= 3.139852E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.062356E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.062356E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.023380E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.023380E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8519E-07 -RFilter_m_d2_m1_e101 68 69 3.4260E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1221E-05 -RFilter_m_d2_m1_e102 69 70 8.3430E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8519E-07 -RFilter_m_d2_m1_e201 73 74 3.4260E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1221E-05 -RFilter_m_d2_m1_e202 74 75 8.3430E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.020985E-06 C= 1.116951E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.023380E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.023380E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib deleted file mode 100644 index 97716cb..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_20_ESCC_3901025_V10_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_20_ESCC_3901025_V10. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_20_ESCC_3901025_V10_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 1.750120E-02 -Rdc_c2_e1 3 9 1.750120E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 1.750120E-02 -Rdc_c2_e2 6 11 1.750120E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.062356E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.062356E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2388E-08 -RFilter_m_d1_m1_e101 32 33 1.9686E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9306E-06 -RFilter_m_d1_m1_e102 33 34 4.8091E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.760905E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2388E-08 -RFilter_m_d1_m1_e201 37 38 1.9686E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9306E-06 -RFilter_m_d1_m1_e202 38 39 4.8091E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.760905E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.543639E-07 G=0.0 C= 3.139852E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.543639E-07 G=0.0 C= 3.139852E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.062356E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.062356E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2388E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9686E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9306E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8091E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2388E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9686E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9306E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8091E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.760905E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2388E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9686E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9306E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8091E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2388E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9686E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9306E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8091E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.760905E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.023380E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.023380E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.8519E-07 -RFilter_m_d2_m1_e101 68 69 3.4260E-03 -* -CFilter_m_d2_m1_e102 69 70 1.1221E-05 -RFilter_m_d2_m1_e102 69 70 8.3430E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.957578E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.8519E-07 -RFilter_m_d2_m1_e201 73 74 3.4260E-03 -* -CFilter_m_d2_m1_e202 74 75 1.1221E-05 -RFilter_m_d2_m1_e202 74 75 8.3430E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.957578E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.020985E-06 G=0.0 C= 1.116951E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.020985E-06 G=0.0 C= 1.116951E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.023380E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.023380E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.8519E-07 -RFilter_m_pz_d2_m1_e101 80 81 3.4260E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 1.1221E-05 -RFilter_m_pz_d2_m1_e102 81 82 8.3430E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.8519E-07 -RFilter_m_pz_d2_m1_e201 84 85 3.4260E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 1.1221E-05 -RFilter_m_pz_d2_m1_e202 85 86 8.3430E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.957578E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.8519E-07 -RFilter_m_mz_d2_m1_e101 89 90 3.4260E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 1.1221E-05 -RFilter_m_mz_d2_m1_e102 90 91 8.3430E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.991516E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.8519E-07 -RFilter_m_mz_d2_m1_e201 93 94 3.4260E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 1.1221E-05 -RFilter_m_mz_d2_m1_e202 94 95 8.3430E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.957578E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec deleted file mode 100644 index 190283b..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901002_V33_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib deleted file mode 100644 index c0f0b05..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901002_V33_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 2.674756E-02 -Rdc_c2_e1 3 9 2.674756E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 2.674756E-02 -Rdc_c2_e2 6 11 2.674756E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.318284E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.318284E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2234E-08 -RFilter_m_d1_m1_e101 32 33 1.9674E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9219E-06 -RFilter_m_d1_m1_e102 33 34 4.7501E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2234E-08 -RFilter_m_d1_m1_e201 37 38 1.9674E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9219E-06 -RFilter_m_d1_m1_e202 38 39 4.7501E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.318284E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.318284E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129312E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129312E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.5370E-07 -RFilter_m_d2_m1_e101 68 69 4.1067E-03 -* -CFilter_m_d2_m1_e102 69 70 9.3076E-06 -RFilter_m_d2_m1_e102 69 70 9.8851E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.5370E-07 -RFilter_m_d2_m1_e201 73 74 4.1067E-03 -* -CFilter_m_d2_m1_e202 74 75 9.3076E-06 -RFilter_m_d2_m1_e202 74 75 9.8851E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129312E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129312E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 -RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 -RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 -RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 -RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib deleted file mode 100644 index 0bd4f3d..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901002_V33_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 2.674756E-02 -Rdc_c2_e1 3 9 2.674756E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 2.674756E-02 -Rdc_c2_e2 6 11 2.674756E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.318284E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.318284E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2234E-08 -RFilter_m_d1_m1_e101 32 33 1.9674E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9219E-06 -RFilter_m_d1_m1_e102 33 34 4.7501E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2234E-08 -RFilter_m_d1_m1_e201 37 38 1.9674E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9219E-06 -RFilter_m_d1_m1_e202 38 39 4.7501E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.397323E-07 C= 2.530290E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.318284E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.318284E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129312E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129312E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.5370E-07 -RFilter_m_d2_m1_e101 68 69 4.1067E-03 -* -CFilter_m_d2_m1_e102 69 70 9.3076E-06 -RFilter_m_d2_m1_e102 69 70 9.8851E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.5370E-07 -RFilter_m_d2_m1_e201 73 74 4.1067E-03 -* -CFilter_m_d2_m1_e202 74 75 9.3076E-06 -RFilter_m_d2_m1_e202 74 75 9.8851E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.065827E-06 C= 1.088401E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129312E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129312E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 -RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 -RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 -RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 -RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib deleted file mode 100644 index 8b002a4..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901002_V33_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901002_V33. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901002_V33_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 2.674756E-02 -Rdc_c2_e1 3 9 2.674756E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 2.674756E-02 -Rdc_c2_e2 6 11 2.674756E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.318284E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.318284E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.2234E-08 -RFilter_m_d1_m1_e101 32 33 1.9674E-02 -* -CFilter_m_d1_m1_e102 33 34 1.9219E-06 -RFilter_m_d1_m1_e102 33 34 4.7501E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.761583E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.2234E-08 -RFilter_m_d1_m1_e201 37 38 1.9674E-02 -* -CFilter_m_d1_m1_e202 38 39 1.9219E-06 -RFilter_m_d1_m1_e202 38 39 4.7501E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.761583E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.397323E-07 G=0.0 C= 2.530290E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.397323E-07 G=0.0 C= 2.530290E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.318284E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.318284E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.2234E-08 -RFilter_m_pz_d1_m1_e101 44 45 1.9674E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.9219E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.7501E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.2234E-08 -RFilter_m_pz_d1_m1_e201 48 49 1.9674E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.9219E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.7501E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.761583E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.2234E-08 -RFilter_m_mz_d1_m1_e101 53 54 1.9674E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.9219E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.7501E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.952317E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.2234E-08 -RFilter_m_mz_d1_m1_e201 57 58 1.9674E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.9219E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.7501E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.761583E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129312E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129312E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.5370E-07 -RFilter_m_d2_m1_e101 68 69 4.1067E-03 -* -CFilter_m_d2_m1_e102 69 70 9.3076E-06 -RFilter_m_d2_m1_e102 69 70 9.8851E-04 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.949306E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.5370E-07 -RFilter_m_d2_m1_e201 73 74 4.1067E-03 -* -CFilter_m_d2_m1_e202 74 75 9.3076E-06 -RFilter_m_d2_m1_e202 74 75 9.8851E-04 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.949306E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.065827E-06 G=0.0 C= 1.088401E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.065827E-06 G=0.0 C= 1.088401E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129312E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129312E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.5370E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.1067E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 9.3076E-06 -RFilter_m_pz_d2_m1_e102 81 82 9.8851E-04 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.5370E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.1067E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 9.3076E-06 -RFilter_m_pz_d2_m1_e202 85 86 9.8851E-04 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.949306E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.5370E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.1067E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 9.3076E-06 -RFilter_m_mz_d2_m1_e102 90 91 9.8851E-04 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.989861E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.5370E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.1067E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 9.3076E-06 -RFilter_m_mz_d2_m1_e202 94 95 9.8851E-04 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.949306E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec deleted file mode 100644 index 8b85332..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901019_V13_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib deleted file mode 100644 index d77d32c..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901019_V13_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.391014E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.391014E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.1210E-08 -RFilter_m_d1_m1_e101 32 33 2.0272E-02 -* -CFilter_m_d1_m1_e102 33 34 1.8599E-06 -RFilter_m_d1_m1_e102 33 34 4.8696E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.1210E-08 -RFilter_m_d1_m1_e201 37 38 2.0272E-02 -* -CFilter_m_d1_m1_e202 38 39 1.8599E-06 -RFilter_m_d1_m1_e202 38 39 4.8696E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.391014E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.391014E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.095657E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.095657E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.3952E-07 -RFilter_m_d2_m1_e101 68 69 4.5132E-03 -* -CFilter_m_d2_m1_e102 69 70 8.4459E-06 -RFilter_m_d2_m1_e102 69 70 1.0808E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.3952E-07 -RFilter_m_d2_m1_e201 73 74 4.5132E-03 -* -CFilter_m_d2_m1_e202 74 75 8.4459E-06 -RFilter_m_d2_m1_e202 74 75 1.0808E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.095657E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.095657E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib deleted file mode 100644 index f171824..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901019_V13_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.391014E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.391014E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.1210E-08 -RFilter_m_d1_m1_e101 32 33 2.0272E-02 -* -CFilter_m_d1_m1_e102 33 34 1.8599E-06 -RFilter_m_d1_m1_e102 33 34 4.8696E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.1210E-08 -RFilter_m_d1_m1_e201 37 38 2.0272E-02 -* -CFilter_m_d1_m1_e202 38 39 1.8599E-06 -RFilter_m_d1_m1_e202 38 39 4.8696E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.639922E-07 C= 2.397993E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.391014E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.391014E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.095657E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.095657E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.3952E-07 -RFilter_m_d2_m1_e101 68 69 4.5132E-03 -* -CFilter_m_d2_m1_e102 69 70 8.4459E-06 -RFilter_m_d2_m1_e102 69 70 1.0808E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.3952E-07 -RFilter_m_d2_m1_e201 73 74 4.5132E-03 -* -CFilter_m_d2_m1_e202 74 75 8.4459E-06 -RFilter_m_d2_m1_e202 74 75 1.0808E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.060768E-06 C= 1.106916E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.095657E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.095657E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib deleted file mode 100644 index 160495f..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901019_V13_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901019_V13. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901019_V13_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.391014E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.391014E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 3.1210E-08 -RFilter_m_d1_m1_e101 32 33 2.0272E-02 -* -CFilter_m_d1_m1_e102 33 34 1.8599E-06 -RFilter_m_d1_m1_e102 33 34 4.8696E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.754747E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 3.1210E-08 -RFilter_m_d1_m1_e201 37 38 2.0272E-02 -* -CFilter_m_d1_m1_e202 38 39 1.8599E-06 -RFilter_m_d1_m1_e202 38 39 4.8696E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.754747E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.639922E-07 G=0.0 C= 2.397993E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.639922E-07 G=0.0 C= 2.397993E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.391014E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.391014E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 3.1210E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.0272E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.8599E-06 -RFilter_m_pz_d1_m1_e102 45 46 4.8696E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 3.1210E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.0272E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.8599E-06 -RFilter_m_pz_d1_m1_e202 49 50 4.8696E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.754747E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 3.1210E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.0272E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.8599E-06 -RFilter_m_mz_d1_m1_e102 54 55 4.8696E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.950949E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 3.1210E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.0272E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.8599E-06 -RFilter_m_mz_d1_m1_e202 58 59 4.8696E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.754747E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.095657E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.095657E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.3952E-07 -RFilter_m_d2_m1_e101 68 69 4.5132E-03 -* -CFilter_m_d2_m1_e102 69 70 8.4459E-06 -RFilter_m_d2_m1_e102 69 70 1.0808E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944372E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.3952E-07 -RFilter_m_d2_m1_e201 73 74 4.5132E-03 -* -CFilter_m_d2_m1_e202 74 75 8.4459E-06 -RFilter_m_d2_m1_e202 74 75 1.0808E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944372E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.060768E-06 G=0.0 C= 1.106916E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.060768E-06 G=0.0 C= 1.106916E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.095657E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.095657E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.3952E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.5132E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.4459E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0808E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.3952E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.5132E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.4459E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0808E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944372E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.3952E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.5132E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.4459E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0808E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988874E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.3952E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.5132E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.4459E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0808E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944372E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec deleted file mode 100644 index 8f1e4f1..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901025_V09_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib deleted file mode 100644 index 8888b18..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901025_V09_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.197535E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.197535E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.6845E-08 -RFilter_m_d1_m1_e101 32 33 2.3592E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5946E-06 -RFilter_m_d1_m1_e102 33 34 5.6709E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.6845E-08 -RFilter_m_d1_m1_e201 37 38 2.3592E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5946E-06 -RFilter_m_d1_m1_e202 38 39 5.6709E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.197535E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.197535E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129945E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129945E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.4107E-07 -RFilter_m_d2_m1_e101 68 69 4.4636E-03 -* -CFilter_m_d2_m1_e102 69 70 8.5398E-06 -RFilter_m_d2_m1_e102 69 70 1.0688E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.4107E-07 -RFilter_m_d2_m1_e201 73 74 4.4636E-03 -* -CFilter_m_d2_m1_e202 74 75 8.5398E-06 -RFilter_m_d2_m1_e202 74 75 1.0688E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129945E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129945E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib deleted file mode 100644 index 7fb5421..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901025_V09_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.197535E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.197535E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.6845E-08 -RFilter_m_d1_m1_e101 32 33 2.3592E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5946E-06 -RFilter_m_d1_m1_e102 33 34 5.6709E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.6845E-08 -RFilter_m_d1_m1_e201 37 38 2.3592E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5946E-06 -RFilter_m_d1_m1_e202 38 39 5.6709E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 3.994546E-07 C= 2.785423E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.197535E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.197535E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129945E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129945E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.4107E-07 -RFilter_m_d2_m1_e101 68 69 4.4636E-03 -* -CFilter_m_d2_m1_e102 69 70 8.5398E-06 -RFilter_m_d2_m1_e102 69 70 1.0688E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.4107E-07 -RFilter_m_d2_m1_e201 73 74 4.4636E-03 -* -CFilter_m_d2_m1_e202 74 75 8.5398E-06 -RFilter_m_d2_m1_e202 74 75 1.0688E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.059687E-06 C= 1.081693E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129945E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129945E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib deleted file mode 100644 index 8846105..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_22_ESCC_3901025_V09_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_22_ESCC_3901025_V09. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_22_ESCC_3901025_V09_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 3.150640E-02 -Rdc_c2_e1 3 9 3.150640E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 3.150640E-02 -Rdc_c2_e2 6 11 3.150640E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.197535E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.197535E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.6845E-08 -RFilter_m_d1_m1_e101 32 33 2.3592E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5946E-06 -RFilter_m_d1_m1_e102 33 34 5.6709E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.715686E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.6845E-08 -RFilter_m_d1_m1_e201 37 38 2.3592E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5946E-06 -RFilter_m_d1_m1_e202 38 39 5.6709E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.715686E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.994546E-07 G=0.0 C= 2.785423E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 3.994546E-07 G=0.0 C= 2.785423E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.197535E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.197535E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.6845E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.3592E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5946E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6709E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.6845E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.3592E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5946E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6709E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.715686E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.6845E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.3592E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5946E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6709E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.943137E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.6845E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.3592E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5946E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6709E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.715686E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.129945E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.129945E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.4107E-07 -RFilter_m_d2_m1_e101 68 69 4.4636E-03 -* -CFilter_m_d2_m1_e102 69 70 8.5398E-06 -RFilter_m_d2_m1_e102 69 70 1.0688E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.944980E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.4107E-07 -RFilter_m_d2_m1_e201 73 74 4.4636E-03 -* -CFilter_m_d2_m1_e202 74 75 8.5398E-06 -RFilter_m_d2_m1_e202 74 75 1.0688E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.944980E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.059687E-06 G=0.0 C= 1.081693E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.059687E-06 G=0.0 C= 1.081693E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.129945E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.129945E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.4107E-07 -RFilter_m_pz_d2_m1_e101 80 81 4.4636E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 8.5398E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.0688E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.4107E-07 -RFilter_m_pz_d2_m1_e201 84 85 4.4636E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 8.5398E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.0688E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.944980E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.4107E-07 -RFilter_m_mz_d2_m1_e101 89 90 4.4636E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 8.5398E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.0688E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.988996E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.4107E-07 -RFilter_m_mz_d2_m1_e201 93 94 4.4636E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 8.5398E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.0688E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.944980E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec deleted file mode 100644 index ceea369..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901002_V32_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib deleted file mode 100644 index d0189bb..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901002_V32_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 5.501884E-02 -Rdc_c2_e1 3 9 5.501884E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 5.501884E-02 -Rdc_c2_e2 6 11 5.501884E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.475060E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.475060E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.4595E-08 -RFilter_m_d1_m1_e101 32 33 2.5497E-02 -* -CFilter_m_d1_m1_e102 33 34 1.4603E-06 -RFilter_m_d1_m1_e102 33 34 5.9990E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.4595E-08 -RFilter_m_d1_m1_e201 37 38 2.5497E-02 -* -CFilter_m_d1_m1_e202 38 39 1.4603E-06 -RFilter_m_d1_m1_e202 38 39 5.9990E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.475060E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.475060E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.294943E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.294943E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.1047E-07 -RFilter_m_d2_m1_e101 68 69 5.6424E-03 -* -CFilter_m_d2_m1_e102 69 70 6.6869E-06 -RFilter_m_d2_m1_e102 69 70 1.3222E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.1047E-07 -RFilter_m_d2_m1_e201 73 74 5.6424E-03 -* -CFilter_m_d2_m1_e202 74 75 6.6869E-06 -RFilter_m_d2_m1_e202 74 75 1.3222E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.294943E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.294943E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib deleted file mode 100644 index da63688..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901002_V32_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 5.501884E-02 -Rdc_c2_e1 3 9 5.501884E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 5.501884E-02 -Rdc_c2_e2 6 11 5.501884E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.475060E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.475060E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.4595E-08 -RFilter_m_d1_m1_e101 32 33 2.5497E-02 -* -CFilter_m_d1_m1_e102 33 34 1.4603E-06 -RFilter_m_d1_m1_e102 33 34 5.9990E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.4595E-08 -RFilter_m_d1_m1_e201 37 38 2.5497E-02 -* -CFilter_m_d1_m1_e202 38 39 1.4603E-06 -RFilter_m_d1_m1_e202 38 39 5.9990E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.920270E-07 C= 2.261360E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.475060E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.475060E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.294943E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.294943E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.1047E-07 -RFilter_m_d2_m1_e101 68 69 5.6424E-03 -* -CFilter_m_d2_m1_e102 69 70 6.6869E-06 -RFilter_m_d2_m1_e102 69 70 1.3222E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.1047E-07 -RFilter_m_d2_m1_e201 73 74 5.6424E-03 -* -CFilter_m_d2_m1_e202 74 75 6.6869E-06 -RFilter_m_d2_m1_e202 74 75 1.3222E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.126080E-06 C= 1.037227E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.294943E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.294943E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib deleted file mode 100644 index fe254ff..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901002_V32_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901002_V32. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901002_V32_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 5.501884E-02 -Rdc_c2_e1 3 9 5.501884E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 5.501884E-02 -Rdc_c2_e2 6 11 5.501884E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.475060E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.475060E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.4595E-08 -RFilter_m_d1_m1_e101 32 33 2.5497E-02 -* -CFilter_m_d1_m1_e102 33 34 1.4603E-06 -RFilter_m_d1_m1_e102 33 34 5.9990E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.694657E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.4595E-08 -RFilter_m_d1_m1_e201 37 38 2.5497E-02 -* -CFilter_m_d1_m1_e202 38 39 1.4603E-06 -RFilter_m_d1_m1_e202 38 39 5.9990E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.694657E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.920270E-07 G=0.0 C= 2.261360E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.920270E-07 G=0.0 C= 2.261360E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.475060E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.475060E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.4595E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.5497E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.4603E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.9990E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.4595E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.5497E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.4603E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.9990E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.694657E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.4595E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.5497E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.4603E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.9990E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.938931E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.4595E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.5497E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.4603E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.9990E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.694657E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.294943E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.294943E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.1047E-07 -RFilter_m_d2_m1_e101 68 69 5.6424E-03 -* -CFilter_m_d2_m1_e102 69 70 6.6869E-06 -RFilter_m_d2_m1_e102 69 70 1.3222E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.930836E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.1047E-07 -RFilter_m_d2_m1_e201 73 74 5.6424E-03 -* -CFilter_m_d2_m1_e202 74 75 6.6869E-06 -RFilter_m_d2_m1_e202 74 75 1.3222E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.930836E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.126080E-06 G=0.0 C= 1.037227E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.126080E-06 G=0.0 C= 1.037227E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.294943E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.294943E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.1047E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.6424E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.6869E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3222E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.1047E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.6424E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.6869E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3222E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.930836E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.1047E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.6424E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.6869E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3222E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.986167E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.1047E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.6424E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.6869E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3222E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.930836E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec deleted file mode 100644 index dbe20a2..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901019_V12_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib deleted file mode 100644 index e400529..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901019_V12_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.629094E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.629094E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.5938E-08 -RFilter_m_d1_m1_e101 32 33 2.4120E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5430E-06 -RFilter_m_d1_m1_e102 33 34 5.6502E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.5938E-08 -RFilter_m_d1_m1_e201 37 38 2.4120E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5430E-06 -RFilter_m_d1_m1_e202 38 39 5.6502E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.629094E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.629094E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.209202E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.209202E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0269E-07 -RFilter_m_d2_m1_e101 68 69 6.0587E-03 -* -CFilter_m_d2_m1_e102 69 70 6.2168E-06 -RFilter_m_d2_m1_e102 69 70 1.4141E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0269E-07 -RFilter_m_d2_m1_e201 73 74 6.0587E-03 -* -CFilter_m_d2_m1_e202 74 75 6.2168E-06 -RFilter_m_d2_m1_e202 74 75 1.4141E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.209202E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.209202E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 -RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 -RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 -RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 -RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib deleted file mode 100644 index 08c6594..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901019_V12_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.629094E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.629094E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.5938E-08 -RFilter_m_d1_m1_e101 32 33 2.4120E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5430E-06 -RFilter_m_d1_m1_e102 33 34 5.6502E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.5938E-08 -RFilter_m_d1_m1_e201 37 38 2.4120E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5430E-06 -RFilter_m_d1_m1_e202 38 39 5.6502E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 5.434073E-07 C= 2.047544E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.629094E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.629094E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.209202E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.209202E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0269E-07 -RFilter_m_d2_m1_e101 68 69 6.0587E-03 -* -CFilter_m_d2_m1_e102 69 70 6.2168E-06 -RFilter_m_d2_m1_e102 69 70 1.4141E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0269E-07 -RFilter_m_d2_m1_e201 73 74 6.0587E-03 -* -CFilter_m_d2_m1_e202 74 75 6.2168E-06 -RFilter_m_d2_m1_e202 74 75 1.4141E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106616E-06 C= 1.074491E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.209202E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.209202E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 -RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 -RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 -RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 -RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib deleted file mode 100644 index e705779..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901019_V12_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901019_V12. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901019_V12_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.629094E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.629094E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 2.5938E-08 -RFilter_m_d1_m1_e101 32 33 2.4120E-02 -* -CFilter_m_d1_m1_e102 33 34 1.5430E-06 -RFilter_m_d1_m1_e102 33 34 5.6502E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.710907E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 2.5938E-08 -RFilter_m_d1_m1_e201 37 38 2.4120E-02 -* -CFilter_m_d1_m1_e202 38 39 1.5430E-06 -RFilter_m_d1_m1_e202 38 39 5.6502E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.710907E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.434073E-07 G=0.0 C= 2.047544E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 5.434073E-07 G=0.0 C= 2.047544E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.629094E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.629094E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 2.5938E-08 -RFilter_m_pz_d1_m1_e101 44 45 2.4120E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.5430E-06 -RFilter_m_pz_d1_m1_e102 45 46 5.6502E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 2.5938E-08 -RFilter_m_pz_d1_m1_e201 48 49 2.4120E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.5430E-06 -RFilter_m_pz_d1_m1_e202 49 50 5.6502E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.710907E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 2.5938E-08 -RFilter_m_mz_d1_m1_e101 53 54 2.4120E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.5430E-06 -RFilter_m_mz_d1_m1_e102 54 55 5.6502E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.942181E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 2.5938E-08 -RFilter_m_mz_d1_m1_e201 57 58 2.4120E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.5430E-06 -RFilter_m_mz_d1_m1_e202 58 59 5.6502E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.710907E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.209202E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.209202E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0269E-07 -RFilter_m_d2_m1_e101 68 69 6.0587E-03 -* -CFilter_m_d2_m1_e102 69 70 6.2168E-06 -RFilter_m_d2_m1_e102 69 70 1.4141E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.925826E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0269E-07 -RFilter_m_d2_m1_e201 73 74 6.0587E-03 -* -CFilter_m_d2_m1_e202 74 75 6.2168E-06 -RFilter_m_d2_m1_e202 74 75 1.4141E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.925826E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.106616E-06 G=0.0 C= 1.074491E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.106616E-06 G=0.0 C= 1.074491E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.209202E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.209202E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0269E-07 -RFilter_m_pz_d2_m1_e101 80 81 6.0587E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.2168E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.4141E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0269E-07 -RFilter_m_pz_d2_m1_e201 84 85 6.0587E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.2168E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.4141E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.925826E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0269E-07 -RFilter_m_mz_d2_m1_e101 89 90 6.0587E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.2168E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.4141E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985165E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0269E-07 -RFilter_m_mz_d2_m1_e201 93 94 6.0587E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.2168E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.4141E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.925826E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec deleted file mode 100644 index b466386..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901025_V08_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib deleted file mode 100644 index 76a9c52..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_LTspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* LTspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901025_V08_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.250852E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.250852E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 1.9877E-08 -RFilter_m_d1_m1_e101 32 33 3.1545E-02 -* -CFilter_m_d1_m1_e102 33 34 1.1742E-06 -RFilter_m_d1_m1_e102 33 34 7.4011E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 1.9877E-08 -RFilter_m_d1_m1_e201 37 38 3.1545E-02 -* -CFilter_m_d1_m1_e202 38 39 1.1742E-06 -RFilter_m_d1_m1_e202 38 39 7.4011E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.250852E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.250852E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 -RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 -RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 -RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 -RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 -RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 -RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 -RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 -RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.266431E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.266431E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0453E-07 -RFilter_m_d2_m1_e101 68 69 5.9523E-03 -* -CFilter_m_d2_m1_e102 69 70 6.3283E-06 -RFilter_m_d2_m1_e102 69 70 1.3892E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0453E-07 -RFilter_m_d2_m1_e201 73 74 5.9523E-03 -* -CFilter_m_d2_m1_e202 74 75 6.3283E-06 -RFilter_m_d2_m1_e202 74 75 1.3892E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.266431E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.266431E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib deleted file mode 100644 index a7c98ec..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_Ngspice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Ngspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901025_V08_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.250852E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.250852E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 1.9877E-08 -RFilter_m_d1_m1_e101 32 33 3.1545E-02 -* -CFilter_m_d1_m1_e102 33 34 1.1742E-06 -RFilter_m_d1_m1_e102 33 34 7.4011E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 1.9877E-08 -RFilter_m_d1_m1_e201 37 38 3.1545E-02 -* -CFilter_m_d1_m1_e202 38 39 1.1742E-06 -RFilter_m_d1_m1_e202 38 39 7.4011E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d1_m1_e1 35 1 40 1 LTRA_T_pz_d1_m1_e1 -.MODEL LTRA_T_pz_d1_m1_e1 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d1_m1_e2 30 1 41 1 LTRA_T_mz_d1_m1_e2 -.MODEL LTRA_T_mz_d1_m1_e2 LTRA( R=0.0 L= 4.172394E-07 C= 2.666695E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.250852E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.250852E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 -RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 -RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 -RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 -RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 -RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 -RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 -RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 -RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.266431E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.266431E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0453E-07 -RFilter_m_d2_m1_e101 68 69 5.9523E-03 -* -CFilter_m_d2_m1_e102 69 70 6.3283E-06 -RFilter_m_d2_m1_e102 69 70 1.3892E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0453E-07 -RFilter_m_d2_m1_e201 73 74 5.9523E-03 -* -CFilter_m_d2_m1_e202 74 75 6.3283E-06 -RFilter_m_d2_m1_e202 74 75 1.3892E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 -* -* -* Delay line for positive z propagation -* -O_T_pz_d2_m1_e1 71 1 76 1 LTRA_T_pz_d2_m1_e1 -.MODEL LTRA_T_pz_d2_m1_e1 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) -* -* Delay line for negative z propagation -* -O_T_mz_d2_m1_e2 66 1 77 1 LTRA_T_mz_d2_m1_e2 -.MODEL LTRA_T_mz_d2_m1_e2 LTRA( R=0.0 L= 1.106473E-06 C= 1.037036E-11 LEN= 1.000000E+00 ) -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.266431E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.266431E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib b/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib deleted file mode 100644 index a9135e4..0000000 --- a/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/TP_AWG_24_ESCC_3901025_V08_over_ground_PSpice.lib +++ /dev/null @@ -1,412 +0,0 @@ -* Pspice multi-conductor transmission line model -* -* Created by SACAMOS (State-of-the-Art CAble MOdels for Spice) -* Spice cable model builder v3.0.3 -* www.sacamos.org -* -* -* Transmission line subcircuit -* -* -* End 1 nodes: -* -* node: 2 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 3 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 4 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -* End 2 nodes: -* -* node: 5 Conductor number 1. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 1 : Twisted pair wire 1 -* node: 6 Conductor number 2. Cable name: TP_AWG_24_ESCC_3901025_V08. type: twisted_pair. conductor 2 : Twisted pair wire 2 -* node: 7 Conductor number 3. Cable name: ground plane. type: ground_plane. conductor 1 : ground plane -* -.subckt TP_AWG_24_ESCC_3901025_V08_over_ground -+ 2 3 4 -+ 5 6 7 -* -* D.C. RESISTANCE END 1 -* -Rdc_c1_e1 2 8 6.000378E-02 -Rdc_c2_e1 3 9 6.000378E-02 -Rdc_c3_e1 4 1 5.000000E-09 -* -* D.C. RESISTANCE END 2 -* -Rdc_c1_e2 5 10 6.000378E-02 -Rdc_c2_e2 6 11 6.000378E-02 -Rdc_c3_e2 7 1 5.000000E-09 -* -* DOMAIN TRANSFORMATION END 1 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e1 8 14 -Vmeas_domain_decomp_c2_e1 9 16 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e1 14 15 12 1 5.000000E-01 -E_domain_decomp_c1_dc2_e1 15 1 13 1 1.000000E+00 -E_domain_decomp_c2_dc1_e1 16 17 12 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e1 17 1 13 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e1 1 12 Vmeas_domain_decomp_c1_e1 5.000000E-01 -F_domain_decomp_c2_dc1_e1 1 12 Vmeas_domain_decomp_c2_e1 -5.000000E-01 -F_domain_decomp_c1_dc2_e1 1 13 Vmeas_domain_decomp_c1_e1 1.000000E+00 -F_domain_decomp_c2_dc2_e1 1 13 Vmeas_domain_decomp_c2_e1 1.000000E+00 -* -* DOMAIN TRANSFORMATION END 2 -* -* -* Domain decomposition Voltage sources used for current sensing -* -Vmeas_domain_decomp_c1_e2 10 20 -Vmeas_domain_decomp_c2_e2 11 22 -* -* Domain decomposition Voltage controlled voltage sources (domain to conductor) -* -E_domain_decomp_c1_dc1_e2 20 21 18 1 5.000000E-01 -E_domain_decomp_c1_dc2_e2 21 1 19 1 1.000000E+00 -E_domain_decomp_c2_dc1_e2 22 23 18 1 -5.000000E-01 -E_domain_decomp_c2_dc2_e2 23 1 19 1 1.000000E+00 -* -* Domain decomposition Current controlled current sources (conductor to domain) -* -F_domain_decomp_c1_dc1_e2 1 18 Vmeas_domain_decomp_c1_e2 5.000000E-01 -F_domain_decomp_c2_dc1_e2 1 18 Vmeas_domain_decomp_c2_e2 -5.000000E-01 -F_domain_decomp_c1_dc2_e2 1 19 Vmeas_domain_decomp_c1_e2 1.000000E+00 -F_domain_decomp_c2_dc2_e2 1 19 Vmeas_domain_decomp_c2_e2 1.000000E+00 -* -* DOMAIN 1 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e1 12 25 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e1 25 1 24 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e1 1 24 Vmeas_mode_decomp_d1_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d1_c1_e2 18 27 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d1_c1_m1_e2 27 1 26 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d1_c1_m1_e2 1 26 Vmeas_mode_decomp_d1_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d1_m1_e1 24 28 1.250852E+02 -* -* Modal impedance: end2 -* -RZCm_d1_m1_e2 26 29 1.250852E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e1 1 32 30 1 1.000000E+00 -* -CFilter_m_d1_m1_e101 32 33 1.9877E-08 -RFilter_m_d1_m1_e101 32 33 3.1545E-02 -* -CFilter_m_d1_m1_e102 33 34 1.1742E-06 -RFilter_m_d1_m1_e102 33 34 7.4011E-03 -* -RFilter_m_d1_m1_e103 34 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e1 28 1 32 1 9.625134E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d1_m1_e2 1 37 35 1 1.000000E+00 -* -CFilter_m_d1_m1_e201 37 38 1.9877E-08 -RFilter_m_d1_m1_e201 37 38 3.1545E-02 -* -CFilter_m_d1_m1_e202 38 39 1.1742E-06 -RFilter_m_d1_m1_e202 38 39 7.4011E-03 -* -RFilter_m_d1_m1_e203 39 1 1.0000E+00 -* -* -ES2_Filter_m_d1_m1_e2 29 1 37 1 9.625134E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d1_m1_e1 35 1 40 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.172394E-07 G=0.0 C= 2.666695E-11 -* -* Delay line for negative z propagation -* -T_mz_d1_m1_e2 30 1 41 1 LEN= 1.000000E+00 -+ R=0.0 L= 4.172394E-07 G=0.0 C= 2.666695E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d1_m1_e1 35 1 1.250852E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d1_m1_e2 30 1 1.250852E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e1 1 44 24 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e101 44 45 1.9877E-08 -RFilter_m_pz_d1_m1_e101 44 45 3.1545E-02 -* -CFilter_m_pz_d1_m1_e102 45 46 1.1742E-06 -RFilter_m_pz_d1_m1_e102 45 46 7.4011E-03 -* -RFilter_m_pz_d1_m1_e103 46 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e1 40 42 44 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d1_m1_e2 1 48 28 1 1.000000E+00 -* -CFilter_m_pz_d1_m1_e201 48 49 1.9877E-08 -RFilter_m_pz_d1_m1_e201 48 49 3.1545E-02 -* -CFilter_m_pz_d1_m1_e202 49 50 1.1742E-06 -RFilter_m_pz_d1_m1_e202 49 50 7.4011E-03 -* -RFilter_m_pz_d1_m1_e203 50 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d1_m1_e2 42 1 48 1 -9.625134E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e1 1 53 26 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e101 53 54 1.9877E-08 -RFilter_m_mz_d1_m1_e101 53 54 3.1545E-02 -* -CFilter_m_mz_d1_m1_e102 54 55 1.1742E-06 -RFilter_m_mz_d1_m1_e102 54 55 7.4011E-03 -* -RFilter_m_mz_d1_m1_e103 55 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e1 41 51 53 1 1.925027E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d1_m1_e2 1 57 29 1 1.000000E+00 -* -CFilter_m_mz_d1_m1_e201 57 58 1.9877E-08 -RFilter_m_mz_d1_m1_e201 57 58 3.1545E-02 -* -CFilter_m_mz_d1_m1_e202 58 59 1.1742E-06 -RFilter_m_mz_d1_m1_e202 58 59 7.4011E-03 -* -RFilter_m_mz_d1_m1_e203 59 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d1_m1_e2 51 1 57 1 -9.625134E-01 -* -* -* DOMAIN 2 -* -* -* Modal Decomposition -* -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e1 13 61 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e1 61 1 60 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e1 1 60 Vmeas_mode_decomp_d2_c1_e1 1.00000000E+00 -* -* Modal decomposition Voltage sources used for current sensing -* -Vmeas_mode_decomp_d2_c1_e2 19 63 -* -* Modal decomposition Voltage controlled voltage sources (mode to conductor) -* -E_mode_decomp_d2_c1_m1_e2 63 1 62 1 1.00000000E+00 -* -* Modal decomposition Current controlled current sources (conductor to mode) -* -F_mode_decomp_d2_c1_m1_e2 1 62 Vmeas_mode_decomp_d2_c1_e2 1.00000000E+00 -* -* Modal impedance: end1 -* -RZCm_d2_m1_e1 60 64 3.266431E+02 -* -* Modal impedance: end2 -* -RZCm_d2_m1_e2 62 65 3.266431E+02 -* -* Modal frequency dependent voltage controlled voltage source : end1 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e1 1 68 66 1 1.000000E+00 -* -CFilter_m_d2_m1_e101 68 69 1.0453E-07 -RFilter_m_d2_m1_e101 68 69 5.9523E-03 -* -CFilter_m_d2_m1_e102 69 70 6.3283E-06 -RFilter_m_d2_m1_e102 69 70 1.3892E-03 -* -RFilter_m_d2_m1_e103 70 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e1 64 1 68 1 9.927121E-01 -* -* -* Modal frequency dependent voltage controlled voltage source : end2 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_d2_m1_e2 1 73 71 1 1.000000E+00 -* -CFilter_m_d2_m1_e201 73 74 1.0453E-07 -RFilter_m_d2_m1_e201 73 74 5.9523E-03 -* -CFilter_m_d2_m1_e202 74 75 6.3283E-06 -RFilter_m_d2_m1_e202 74 75 1.3892E-03 -* -RFilter_m_d2_m1_e203 75 1 1.0000E+00 -* -* -ES2_Filter_m_d2_m1_e2 65 1 73 1 9.927121E-01 -* -* -* Delay line for positive z propagation -* -T_pz_d2_m1_e1 71 1 76 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.106473E-06 G=0.0 C= 1.037036E-11 -* -* Delay line for negative z propagation -* -T_mz_d2_m1_e2 66 1 77 1 LEN= 1.000000E+00 -+ R=0.0 L= 1.106473E-06 G=0.0 C= 1.037036E-11 -* -* Modal impedances on modal positive z propagation delay lines -* -RZC_pz_d2_m1_e1 71 1 3.266431E+02 -* -* Modal impedances on modal negative z propagation delay lines -* -RZC_mz_d2_m1_e2 66 1 3.266431E+02 -* -* Delay line frequency dependent controlled sources for positive z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e1 1 80 60 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e101 80 81 1.0453E-07 -RFilter_m_pz_d2_m1_e101 80 81 5.9523E-03 -* -CFilter_m_pz_d2_m1_e102 81 82 6.3283E-06 -RFilter_m_pz_d2_m1_e102 81 82 1.3892E-03 -* -RFilter_m_pz_d2_m1_e103 82 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e1 76 78 80 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_pz_d2_m1_e2 1 84 64 1 1.000000E+00 -* -CFilter_m_pz_d2_m1_e201 84 85 1.0453E-07 -RFilter_m_pz_d2_m1_e201 84 85 5.9523E-03 -* -CFilter_m_pz_d2_m1_e202 85 86 6.3283E-06 -RFilter_m_pz_d2_m1_e202 85 86 1.3892E-03 -* -RFilter_m_pz_d2_m1_e203 86 1 1.0000E+00 -* -* -ES2_Filter_m_pz_d2_m1_e2 78 1 84 1 -9.927121E-01 -* -* -* Delay line frequency dependent controlled sources for negative z propagation -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e1 1 89 62 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e101 89 90 1.0453E-07 -RFilter_m_mz_d2_m1_e101 89 90 5.9523E-03 -* -CFilter_m_mz_d2_m1_e102 90 91 6.3283E-06 -RFilter_m_mz_d2_m1_e102 90 91 1.3892E-03 -* -RFilter_m_mz_d2_m1_e103 91 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e1 77 87 89 1 1.985424E+00 -* -*****Equivalent circuit model for s-domain transfer function ***** -* generated by network_syntheis.F90 -* -GS1_Filter_m_mz_d2_m1_e2 1 93 65 1 1.000000E+00 -* -CFilter_m_mz_d2_m1_e201 93 94 1.0453E-07 -RFilter_m_mz_d2_m1_e201 93 94 5.9523E-03 -* -CFilter_m_mz_d2_m1_e202 94 95 6.3283E-06 -RFilter_m_mz_d2_m1_e202 94 95 1.3892E-03 -* -RFilter_m_mz_d2_m1_e203 95 1 1.0000E+00 -* -* -ES2_Filter_m_mz_d2_m1_e2 87 1 93 1 -9.927121E-01 -* -* -.ends -* diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/UoN_logo.pdf b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/UoN_logo.pdf deleted file mode 100644 index b4c255b..0000000 Binary files a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/UoN_logo.pdf and /dev/null differ diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls deleted file mode 100644 index bdc883b..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls +++ /dev/null @@ -1,79 +0,0 @@ -\newcommand*{\CABLEMOD@classname}{cablemod} -\NeedsTeXFormat{LaTeX2e}[1994/12/01] -\ProvidesClass{\CABLEMOD@classname}[2016/2/10 ESA spice cable modelling document class] - -\LoadClass{report} - -% Packages -\RequirePackage{times} -\RequirePackage[pdftex]{graphics,color} -\RequirePackage[pdftex,a4paper,pdfborder=000]{hyperref} -\RequirePackage{epstopdf} -\RequirePackage{titletoc} -\RequirePackage{fancyhdr} -\RequirePackage[format=hang,labelsep=quad]{caption} -\RequirePackage[comma,numbers]{natbib} -\RequirePackage{multicol} -\RequirePackage{amsmath} - -% Define new commands -\newcommand{\NLRname}{Netherlands Aerospace Centre} -\newcommand{\UONname}{University of Nottingham} -% fonts -\newcommand*{\CABLEMODrmd}{\rmfamily\bfseries\upshape} 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version: \hfill \normalfont \DocumentVersion \par} -\end{flushleft} -\clearpage -\end{titlepage} -} - -% -% Commands for references to bibliography (using the natbib package) -% -\setcitestyle{square} -\newcommand*{\Refname}{Ref} -\renewcommand*{\cite}[1]{\citep{#1}} -\newcommand*{\Ref}[1]{\citetext{\Refname.~\cite{#1}}} -\newcommand*{\Refs}[1]{\citetext{\Refname s.~\cite{#1}}} -\newcommand*{\reference}[1]{\refername~\cite{#1}} -\newcommand*{\references}[1]{\refername s~\cite{#1}} - -%\newcommand*{\Refname}{Ref} -%\renewcommand*{\cite}[1]{\citealp{#1}} -%\newcommand*{\Ref}[1]{\citetext{\Refname.~\cite{#1}}} -%\newcommand*{\Refs}[1]{\citetext{\Refname s.~\cite{#1}}} -%\newcommand*{\reference}[1]{\refername~\cite{#1}} -%\newcommand*{\references}[1]{\refername s~\cite{#1}} diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls_OLD b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls_OLD deleted file mode 100644 index 5d80684..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/COMMON_LATEX_FILES/cablemod.cls_OLD +++ /dev/null @@ -1,70 +0,0 @@ -\newcommand*{\CABLEMOD@classname}{cablemod} -\NeedsTeXFormat{LaTeX2e}[1994/12/01] -\ProvidesClass{\CABLEMOD@classname}[2016/2/10 ESA spice cable modelling document class] - -\LoadClass{report} - -% Packages -\RequirePackage{times} -\RequirePackage[pdftex]{graphics,color} -\RequirePackage[pdftex,a4paper,pdfborder=000]{hyperref} -\RequirePackage{epstopdf} -\RequirePackage{titletoc} -\RequirePackage{fancyhdr} -\RequirePackage[format=hang,labelsep=quad]{caption} -\RequirePackage[comma,numbers]{natbib} -\RequirePackage{multicol} -\RequirePackage{amsmath} - -% Define new commands -\newcommand{\NLRname}{Netherlands Aerospace Centre} -\newcommand{\UONname}{University of Nottingham} -% fonts -\newcommand*{\CABLEMODrmd}{\rmfamily\bfseries\upshape} -\newcommand*{\CABLEMODrmk}{\rmfamily\mdseries\upshape} -\newcommand*{\dif}{\mathrm{d}} - -% Logos on coverpage 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a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Makefile b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Makefile deleted file mode 100644 index 0450c14..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Makefile +++ /dev/null @@ -1,32 +0,0 @@ -# -# makefile for creating PDF from LaTeX source -# - -# This Makefile needs attention as a pdf file can be produced locally and not moved to the level above. - -default : SACAMOS_Spacecraft_cable_MOD_development.pdf - -LATEX_FILES= \ -Tex/bibliography.tex \ -Tex/introduction.tex \ -Tex/preamble.tex \ -Tex/Twisted_pairs.tex \ -Tex/Shielded_twisted_pairs.tex \ -Tex/spacewire.tex \ -Tex/kley.tex - -SACAMOS_Spacecraft_cable_MOD_development.pdf: SACAMOS_Spacecraft_cable_MOD_development.tex $(LATEX_FILES) - TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex - TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex - TEXINPUTS=".:${TOP_LEVEL_DIRECTORY}/COMMON_LATEX_FILES:" pdflatex -interaction=nonstopmode SACAMOS_Spacecraft_cable_MOD_development.tex - -help: - @echo "make : make SACAMOS_Spacecraft_cable_MOD_development.pdf" - @echo "make clean : clean LaTeX files" - @echo "make clean_all : clean LaTeX files and image files" - -clean: - rm -f *.aux *.lof *.log *.out *.toc *.pdf - -clean_all: - rm -f *.aux *.lof *.log *.out *.toc *.pdf Imgs/*eps-converted-to.pdf diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex deleted file mode 100644 index 2d7088e..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.tex +++ /dev/null @@ -1,36 +0,0 @@ -\documentclass{cablemod} - -% The preamble file sets up the details of the document, title, authors, license etc. -\input{./Tex/preamble.tex} - -% Begin document -\begin{document} - -% Make title page -\maketitle - -% Include table of contents -\tableofcontents - -% Define headers and footers for the remainder of the document -\pagestyle{fancy} -\fancyfoot[L]{\textit{\Reference}} -\fancyfoot[R]{\textit{\DocumentTitle, V\DocumentVersion}} -\fancyhead[L]{\textit{\DocumentSubTitle}} -\fancyhead[R]{} - -% Main text follows: - -\input{./Tex/introduction.tex } -\input{./Tex/Twisted_pairs.tex } -\input{./Tex/Shielded_twisted_pairs.tex } -\input{./Tex/spacewire.tex } - -% Bibliography -\input{./Tex/bibliography.tex} - -\appendix -\input{./Tex/kley.tex } - - -\end{document} diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex deleted file mode 100644 index f150199..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Shielded_twisted_pairs.tex +++ /dev/null @@ -1,124 +0,0 @@ -\chapter{Shielded Twisted Pair cable models} - -The shielded twisted pair models consist of variant 12 STP from the standard \cite{3901/025} for LF signals and RS422 cables: variant 24 STP from the standard \cite{3902/002}. - - -The process followed to obtain the parameters for the \textbf{.cable\_spec} from information in the ESCC specifications is as follows (where we assume that all dimensions are converted to metres): - - \begin{enumerate} - \item - \begin{equation} - comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} - \end{equation} - - \item - \begin{equation} - dielectric\_radius = \frac{core\_max\_diameter}{2} - \end{equation} -Note that the $core\_max\_diameter$ is not set in the ESCC 3902002 document \cite{3902/002}. In this case it is chosen such that the differential mode impedance of the shielded twisted pair model is the specified 120 ohms. For variant 12 STP from the standard \cite{3901/025} the dielectric diameter is chosen to be slightly less than the max core diameter from Table 1(a) so that th twisted pair fits inside the shield. - - \item - \begin{equation} - conductor\_separation = 2* dielectric\_radius + \delta - \end{equation} - where $\delta$ is a small separtion distance, here assumed to be 0.01mm. This is required in order that the dielectric regions do no touch which would cause a problem for the mesh generation. - - \item - The conductor in the model is a homogeneous cylindrical conductor so we need an effective - conductivity. This is based on the maximum resistance (quoted in ohms/km) - - \begin{equation} - Conductivity = \frac{length}{(max\_resistance*nominal\_section)} - \end{equation} - - \item - \begin{equation} - shield\_radius=\frac{finished\_diameter}{2}-tj - \end{equation} - where tj is the outer jacket thickness. This is not specified in ESCC document but a typical value of 0.2mm is used - - \item The shield thickness is set to zero. This indicates to the software that an 'equivalent thickness' should be calculated such that the d.c. resistance of the shield is consistent with the d.c. transfer impedance. - - \item The dielectric surrounding each conductor is also assumed to be homogeneous and independent of frequency. -Materials used in the STP cables are: - - Fluoropolymer: $\epsilon_r=2.1$ - - microporous PTFE $\epsilon_r=1.3$ - - \item For RS422 cable, ESCC 3902/002 variant 24, the shield model is based on the shielding effectiveness curve in figure 1b. The usual definition of shielding effectiveness would make this a positive quantity however I am assuming that the curve here is of (1/SE)dB. - -If we assume that the shielding effectiveness can be related to the transfer impedance by the formula -\begin{equation} -SE(dB)=20log\left(\frac{2Z_0}{Z_T}\right) - \end{equation} - -where $Z_0$ is the termination impedance in the transfer impedance measurement and $Z_T$ is the transfer impedance, then - -\begin{equation} -Z_T=\frac{2Z_0}{10^{\frac{SE}{20}}} -\end{equation} - -Here it is assumed that $Z_0=50\Omega$. - -A value of the shield d.c. resistance is derived from the SE as $f \rightarrow 0$. - -\item For LF signal cable, variant 12 STP from the standard \cite{3901/025} no shielding effectiveness is specified so a 'reasonable' braid specification has been developed based on the requirement for 90\% coverage and a shield strand diameter of 0.079mm. From this specification the theory of Kely \cite{Kley} in appendix 1 is used to calculate a transfer impedance model of the form $Z_T=R_T+j\omega L_T$. In this case the braid specification is as follows: - -\begin{verbatim} -1.4E-3 ! braid diameter, D (m) -8 ! Number of carriers, C -6 ! Number of wires in a carrier, N -0.079e-3 ! diameter of a single wire, d (m) -5E7 ! conductivity of wires (S/m) -52.0 ! pitch angle of the braid (degrees) -\end{verbatim} - -$R_T$ is found as $\Re\left\{{Z_T}\right\}$ as $f \rightarrow 0$ and $L_T$ is found as $\frac{\Im\left\{{Z_T}\right\}}{j\omega}$ at a suitably high frequency (1GHz here). - -\end{enumerate} - - As an example, the cable specification for the 20AWG cable, variant 24 from \cite{3902/002} - - SPICE\_MODEL\_STP\_RS422\_AWG\_26\_ESCC\_3902002\_V24: - -\begin{verbatim} -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Shielded_twisted_pair -3 # number of conductors -8 # number of parameters - 2.111E-04 # parameter 1: inner conductor radius - 5.000E-04 # parameter 2: inner dielectric radius - 1.010E-03 # parameter 3: inner conductor separation - 1.050E-03 # parameter 4: shield radius - 0.000E+00 # parameter 5: shield thickness - 1.250E-03 # parameter 6:outer dielectric radius - 4.492E+07 # parameter 7: inner conductor conductivity - 4.492E+07 # parameter 8: shield conductivity -2 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.300E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -1 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.000E-01 5.035E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace - -\end{verbatim} - - -\clearpage diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Twisted_pairs.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Twisted_pairs.tex deleted file mode 100644 index eef76f9..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/Twisted_pairs.tex +++ /dev/null @@ -1,64 +0,0 @@ -\chapter{Twisted Pair cable models} - -Twisted pair models have been developed with gauges 20, 22, 24, from 3 different standards \cite{3901/019}, \cite{3901/002} and \cite{3901/025} i.e. 9 models in total. - -The process followed to obtain the parameters for the \textbf{.cable\_spec} file from information in the ESCC specifications is as follows (where we assume that all dimensions are converted to metres): - - \begin{enumerate} - - \item - \begin{equation} - comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} - \end{equation} - - \item - \begin{equation} - dielectric\_radius = \frac{core\_max\_diameter}{2} - \end{equation} - - \item - \begin{equation} - conductor\_separation = finished\_wire\_diameter -2* dielectric\_radius - \end{equation} - - - \item - The conductor in the model is a homogeneous cylindrical conductor so we need an effective - conductivity. This is based on the maximum resistance (quoted in ohms/km) - - \begin{equation} - Conductivity = \frac{length}{(max\_resistance*nominal\_section)} - \end{equation} - - \item -The dielectric surrounding each conductor is also assumed to be homogeneous and independent of frequency. - - polyimide: $\epsilon_r=3.4$ - -\end{enumerate} - - As an example, the cable specification for the 20AWG cable, variant 14 from \cite{3901/019} - - TP\_AWG\_20\_ESCC\_3901019\_V14.cable\_spec: - -\begin{verbatim} -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.520E-03 # parameter 2: inner conductor separation - 7.400E-04 # parameter 3: inner dielectric radius - 4.762E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 -\end{verbatim} - - -\clearpage diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/bibliography.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/bibliography.tex deleted file mode 100644 index fa7a6d3..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/bibliography.tex +++ /dev/null @@ -1,70 +0,0 @@ -\begin{thebibliography}{9} - -\bibitem{sacamos} www.sacamos.org - -\bibitem{sacamos_UG} -C. Smartt, D.W.P. Thomas, S. Greedy, J. Verpoorte, J. Lansink Rotgerink -\textsl{SACAMOS User Guide} - -%TP - -\bibitem{3901/019}\textsl{ESCC 3901/019: POLYIMIDE INSULATED WIRES AND CABLES, -LOW FREQUENCY, 600V, -200 TO +200°C -BASED ON TYPE SPL} -https://escies.org/download/specdraftapppub?id=2686 - -\bibitem{3901/002}\textsl{ESCC 3901/002: POLYIMIDE INSULATED WIRES AND CABLES, -LOW FREQUENCY, 600V, -100 TO +200°C} -ESCC Detail Specification No. 3901/002 -https://escies.org/download/specdraftapppub?id=2558 - -%TP & STP - -\bibitem{3901/025}\textsl{ESCC 3901/025: LIGHTWEIGHT, EXTRA THIN, FLUORTHERMOPLASTIC / POLYIMIDE -INSULATED WIRES AND CABLES, LOW FREQUENCY, 600V, --200 TO +200 °C -BASED ON TYPE CSC} -https://escies.org/download/specdraftapppub?id=2557 - -% STP - -%RS422 STP -\bibitem{3902/002}\textsl{ESCC 3902/002: COAXIAL, TRIAXIAL AND SYMMETRIC CABLES, FLEXIBLE, --200 TO +180 oC} -https://escies.org/download/specdraftapppub?id=2986 - -%Spacewire -Cable: -\bibitem{3902/003}\textsl{ESCC 3902/003: CABLE, 'SPACEWIRE', ROUND, QUAD USING -SYMMETRIC CABLES, FLEXIBLE, -200 TO +180°C} -https://escies.org/download/specdraftapppub?id=3125 - -%LowMassSpacewire -\bibitem{3902/004}\textsl{ESCC 3902/004: CABLE, LOW MASS, 'SPACEWIRE', ROUND, -QUAD USING SYMMETRIC CABLES, FLEXIBLE, --100 TO +150°C} - -%Connectors for SpaceWire: -\bibitem{3401/071}\textsl{ESCC 3401/071: CONNECTOR, ELECTRICAL, RECTANGULAR, -MICROMINIATURE, SOLDER BUCKET CONTACTS, -WITH EMI BACKSHELL -BASED ON TYPE MDM} -https://escies.org/download/specdraftapppub?id=2702 - - -\bibitem{Vance} -E. F. Vance -\textsl{Shielding effectiveness of braided wire shields}, IEEE transactions on EMC, vol -EMC-17, no 2, 1975, pp71-77 - -\bibitem{Kley} -T. Kley -\textsl{Optimized single-braided cable shields} IEEE Transactions on Electromagnetic -Compatibility, vol.35, no.1, pp.1,9, Feb 1993 - -\bibitem{Tesche} -F. M. Tesche, M. V. Ianov, T. Karlsson, -\textsl{EMC Analysis Methods and Computational Models} John Wiley and Sons, 1997. - - -\end{thebibliography} diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/introduction.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/introduction.tex deleted file mode 100644 index 9d58269..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/introduction.tex +++ /dev/null @@ -1,108 +0,0 @@ -\chapter{Introduction}\label{introduction} - -The SACAMOS software \cite{sacamos} enables the creation of Spice cable models from the description/ characterisation of cables and bundles of cables together with information required to specify a particular modelling scenario (for example the specification of incident field excitation or transfer impedance coupling model). - -Example models of cables used in spacecraft have been included with the software in a library of cable models referred to as 'MOD'. -MOD also includes example Spice cable bundle models which make use of these cable models. - -The cable models in the library are based on the ESCC specification documents (references \cite{3901/019} to \cite{3401/071}) and include twisted pair power lines, shielded twisted pair low frequency signal lines and RS422 cables plus SpaceWire cable assemblies, including connectors. -This document describes the development of the library of cable models for spacecraft cables from these specifications and additional information where required i.e. how the information required in the cable specification \textbf{.cable\_spec} file \cite{sacamos_UG} is derived. - -\subsection{Cable types in MOD} - -The cable models defined in MOD are as follows: - -\begin{enumerate} - -\item Power lines: Twisted pairs with gauges 20, 22, 24, from 3 different standards \cite{3901/019}, \cite{3901/002} and \cite{3901/025} - -\item Low frequency signals: variant 12 Shielded Twisted Pair from the standard \cite{3901/025} - -\item RS422 cables: variant 24 Shielded Twisted Pair from the standard \cite{3902/002} - -\item SpaceWire: gauges 28 and 26 from the standard \cite{3902/003} and low mass SpaceWire cable from the stsndard \cite{3902/004} - -\item Connectors for SpaceWire: 9 contact connector from the standard \cite{3401/071} - -\end{enumerate} - -The cable naming convention combines the cable type (TP, STP, SPACEWIRE, LOW\_MASS\_SPACEWIRE) with the -wire gauge (AWG 20, 22, 24, 26, 28), the ESCC specification document number and the particular -cable variant number from within the specification. - -The cable and connector models described here and made avaialble in MOD are as follows: - -\textbf{Twisted Pair models} - -\begin{verbatim} -TP_AWG_20_ESCC_3901002_V34 - -TP_AWG_20_ESCC_3901019_V14 - -TP_AWG_20_ESCC_3901025_V10 - -TP_AWG_22_ESCC_3901002_V33 - -TP_AWG_22_ESCC_3901019_V13 - -TP_AWG_22_ESCC_3901025_V09 - -TP_AWG_24_ESCC_3901002_V32 - -TP_AWG_24_ESCC_3901019_V12 - -TP_AWG_24_ESCC_3901025_V08 -\end{verbatim} - -\textbf{Shielded Twisted Pair models} - -\begin{verbatim} -STP_AWG_26_ESCC_3901025_V12 - -STP_RS422_AWG_26_ESCC_3902002_V24 -\end{verbatim} - -\textbf{SpaceWire Cable models} - -\begin{verbatim} -SPACEWIRE_AWG_28_ESCC_3902003_V1 - -SPACEWIRE_AWG_26_ESCC_3902003_V2 - -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 - -SPACEWIRE_CONNECTOR -\end{verbatim} - -%\subsection{Example sub-circuit models} -% -%For the practical use of the MOD library it would also be useful for the user, who needs cables "directly available" -%(according to the SoW) to provide "single cable bundles" based on the above, and the relevant Spice models. -%As, in practice, there is always a ground plane somewhere (a spacecraft structure panel, as discussed many times), -%it would be useful to provide Spice models of a cable (from the list of cable to be agreed) above a ground plane. -%The ground plane can be lossless, as, as discussed also several times, what tends to dominate is the impedance of -%the connections of the ending circuits to the ground plane, rather than its own losses. I would suggest to consider -%a height of the cable above the ground plane of 5 cm, as specified in most EMC standards. For the length: we can -%stick to 1 metre, as long as you are sure that the cables can be cascaded (by the user) to achieve 2, 3, 5, 10 metres -%without any unwanted effect. It seems to me that cascading 1 metre cables has the beneficial effect of spreading -%a little the DC resistance of the conductors, which should result in more realistic circuits. -\section{Dielectric materials} - -A number of different dielectrics are used in the construction of the cables specified. In all the cable models we assume that the dielectric material within each region is homogeneous, lossless and the relative permittivity is independent of frequency. - -The relative permittivities used for the dielectrics used in spacecraft cable models are: - -\begin{itemize} - -\item -polyimide: 3.4 - -\item -microporous PTFE: 1.3 - -\item -fluoropolymer PFA: 2.1 - -\end{itemize} - -\cleardoublepage diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/kley.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/kley.tex deleted file mode 100644 index e5d9dd2..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/kley.tex +++ /dev/null @@ -1,106 +0,0 @@ -\chapter{Transfer Impedance model according to Kley} \label{appendix_kley} - -From the work of Vance \cite{Vance} and Kley \cite{Kley} and the summary of this work in \cite{Tesche} we may calculate the frequency dependent transfer impedance of a braided wire shield from the cable shield parameters. The shield parameters are - -\begin{enumerate} -\item braid diameter, D -\item Number of carriers, C -\item Number of wires in a carrier, N -\item diameter of a single wire, d -\item conductivity of wires, $\sigma$ -\item pitch angle of the braid, $\alpha$ -\end{enumerate} - -These parameters are illustrated in figure \ref{fig:braid2}. - -\begin{figure}[h] -\centering -\includegraphics[scale=0.25]{./Imgs/braid.jpg} -\caption{Braid parameters} -\label{fig:braid2} -\end{figure} - -The transfer impedance is the sum of the effects of diffusion through the shield conductor, penetration of the field through the holes in the shield and the effects of the overalpping weave of the braid conductors. -\begin{equation} \label{eq:Kley_0} -Z_t=Z_d+j\omega M_h +j\omega M_b -\end{equation} - -The calculation of the transfer impedance terms proceeds as follows: - -The fill factor, F, is calculated as -% -\begin{equation} \label{eq:Kley_1} -F=\frac{N C d}{2 \pi D cos(\alpha)} -\end{equation} -% -The optical coverage, K, is -% -\begin{equation} \label{eq:Kley_2} -K=2F-F^2 -\end{equation} -% -The length and width of the rhombic holes are given by -\begin{equation} \label{eq:Kley_3} -l=\frac{\left(1-F\right)Nd}{Fsin(\alpha)} -\end{equation} -\begin{equation} \label{eq:Kley_4} -w=\frac{\left(1-F\right)Nd}{Fcos(\alpha)} -\end{equation} -% -a parameter, e, is defined as -\begin{equation} \label{eq:Kley_5} -e=\sqrt{1-\left(\frac{w}{l} \right)^2} -\end{equation} - -The diffusion impedance term is given by -\begin{equation} \label{eq:Kley_6} -Z_d=R_0\frac{\gamma}{sinh(\gamma t)} -\end{equation} -where $R_0$ is the d.c. resistance of the shield -\begin{equation} \label{eq:Kley_7} -R_0=\frac{4}{\pi d^2 N C \sigma cos(\alpha) } -\end{equation} -$\gamma$ is the propgation constant in the shield conductor -\begin{equation} \label{eq:Kley_8} -\gamma=\frac{1+j}{\delta } -\end{equation} -where -\begin{equation} \label{eq:Kley_9} -\delta=\sqrt{ \frac{2}{\omega \mu_0 \sigma } } -\end{equation} - -and $t$ is an equivalent thickness of the cable shield given by -\begin{equation} \label{eq:Kley_10} -t=\frac{1}{\pi \sigma D R_0 } -\end{equation} - -The hole inductance term is given by -\begin{equation} \label{eq:Kley_11} - M_h=\frac{\mu_0 \pi (1-K)^{\frac{3}{2}})e^2}{6 C (Em(e)-(1-e^2)Km(e))}*C_k -\end{equation} -where $Km$ and $Em$ are elliptic integrals and -\begin{equation} \label{eq:Kley_12} -C_k=0.875 e^{-T_h} -\end{equation} -\begin{equation} \label{eq:Kley_13} -T_h=9.6 F \left( \frac{K^2 d}{2a} \right) ^{\frac{1}{3}} -\end{equation} -\begin{equation} \label{eq:Kley_14} -a=D/2d0+d -\end{equation} - - -\begin{equation} \label{eq:Kley_15} -M_b=\frac{-0.22 \mu_0 d}{ 4 \pi D_m F cos( \alpha )}cos(2 k_1 \alpha) -\end{equation} -where -\begin{equation} \label{eq:Kley_16} -k_1=\frac{\pi}{2.667 F cos(\alpha)+\frac{\pi}{10} } -\end{equation} -and -\begin{equation} \label{eq:Kley_17} -D_m=D+2d -\end{equation} - - -\clearpage diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/preamble.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/preamble.tex deleted file mode 100644 index 9219d9a..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/preamble.tex +++ /dev/null @@ -1,10 +0,0 @@ -\usepackage{shortvrb,graphicx,amsmath} - -\newcommand{\DocumentTitle}{ Spacecraft cable MOD} -\newcommand{\DocumentSubTitle}{SACAMOS: State of the Art CAble MOdels for Spice} -\newcommand{\DocumentSubSubTitle}{Open Souce Cable Models for EMI Simulations} -\newcommand{\DocumentVersion}{1.1} -\newcommand{\DocumentAuthors}{Christopher Smartt\footnote{\UONname, contact: Chris.Smartt@nottingham.ac.uk}} -\newcommand{\License}{This document is subject to the GNU Free Documentation License (version 2.0).} -\newcommand{\Reference}{ESA 40000112765/14/NL/HK.} - diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/spacewire.tex b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/spacewire.tex deleted file mode 100644 index 882acd1..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/MOD_DOCUMENT/Tex/spacewire.tex +++ /dev/null @@ -1,137 +0,0 @@ -\chapter{SpaceWire cable models} - - The SpaceWire cable models, gauges 28 and 26 are derived from the standard \cite{3902/003} plus some additional information obtained from samples of cable for the shield transfer impedance specifications. - -The low mass SpaceWire cable model is derived from the standard \cite{3902/004} plus some additional information obtained from samples of cable for the shield transfer impedance specifications. - -The SpaceWire connector model is the 9 contact connector from the standard \cite{3401/071}. - -\subsection{SpaceWire cable model} - -The SpaceWire cable model parameters have beed determined as follows: - -\begin{enumerate} - - \item - \begin{equation} - comnductor\_radius = \sqrt{\frac{nominal\_section}{\pi}} - \end{equation} - DSC07340small.jpg - \item - \begin{equation} - dielectric\_radius = \frac{core\_max\_diameter}{2} - \end{equation} - - -\item The conductor in the model is homogeneous so we need an effective conductivity. This is based on the maximum resistance (ohms/km). Note this is a single conductor resistance. - \begin{equation} - Conductivity = \frac{length}{(max\_resistance*nominal\_section)} - \end{equation} - -\item -The dielectric is expanded microporous PTFE whose relative permittivity for the purpose of the calculation of the capacitance matrix for the shielded twisted pair is assumed to be 1.5. This is somewhat higher than the quoted value of 1.3 but the model does not include the dielectric filler or the binder materials so it artificially increased to try and compensate. - -\item -It is not possible now to use the dimensions in table 1a as these are maximum dimensions so I have an iterative process so as to obtain a viable twisted pair cross section with a differential mode impedance of 100 ohms. (Using the dimensions in table 1a gives an impedance of 140ohms). - -It is assumed that the distance between the insulation of the twisted pair is 0.01mm. This ensures that the dielectrics do not touch in the model which will cause the mesh generation to fail. - -The adjustable parameters are the inner dielectric radius, and the inner shield radius. - -\item -The inner conductor separation (here = 2*dielectric radius +0.01mm) - -\item -The inner shield jacket radius is the inner shield radius + the maximum inner jacket wall radius =0.2mm (section 4.4.7.2 from \cite{3902/003}). This and the outer jacket are made of extruded fluoropolymer PFA for which I am using a relative permittivity of 2.1. - -\item -The shielded twisted pair radius and the outer shield radius are chosen to give a sensible looking cable cross section while keeping within the maximum cable diameter (table 1a.) - -\item -The outer jacket thickness is 0.25mm (section 4.4.7.2 from \cite{3902/003}) - -\item Shield models. - -The shield conductivity is taken to be the same as for the inner wires and the shield thickness is set to zero in the \textbf{.cable\_spec} file - this then allows the software to calculate an 'equivalent thickness' so that the d.c. resistance of the shield is equal to the d.c. transfer impedance. - -The shield transfer impedance models for the inner and outer shields cannot be based on the shielding effectiveness curve in figure 1b as this relates to the shielding effectiveness of the combination of inner and outer shields, connected together. - -The shield transfer impedance models are obtained as from directly measuring the braid geometry of samples of SpaceWire (and Low Mass SpaceWire). From photographs of both the inner and outer braids, the number of carriers, number of wires in a carrier and the pitch angle of the braid can be determined. -From this specification the theory of Kely \cite{Kley} in appendix 1 is used to calculate a transfer impedance model of the form $Z_T=R_T+j\omega L_T$. - -$R_T$ is found as $\Re\left\{{Z_T}\right\}$ as $f \rightarrow 0$ and $L_T$ is found as $\frac{\Im\left\{{Z_T}\right\}}{j\omega}$ at a suitably high frequency (1GHz here). - - -\end{enumerate} - -The sheilding effectiveness of the SpaceWire models are shown in figures \ref{fig_SE28} and \ref{fig_SE26} respectively. These curves can be compared with figure 1b in the ESCC specification document. - -\begin{figure}[h] -\centering -\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS_result.jpg} -\caption{AWG 28 V1 SpaceWire Shielding Effectiveness} -\label{fig_SE28} -\end{figure} - -\begin{figure}[h] -\centering -\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS_result.jpg} -\caption{AWG 26 V2 SpaceWire Shielding Effectiveness} -\label{fig_SE26} -\end{figure} - - -\subsection{Low Mass SpaceWire cable model} - -The low mass SpaceWire cable model is derived in exactly the same way as the SpaceWire models. It should be noted that there is no insulation between the inner and outer shields of low mass SpaceWire although the model assumes that there is. This can lead to modes propagating in the model in the region between the inner and outer shields which will not exist in the real cable. This is illustrated in the shielding effectiveness calculation shown in figure \ref{fig_SE_low_mass_1} which shows the shielding effectiveness of 1m of the Low Mass spaceWire cable -model. A model which is more representative of the real cable can be constructed by building the 1m cable from 10cm sections and connecting the inner shields and the outer shield together between each of the sections. The shielding effectivenes obtained from this model is shown in figure \ref{fig_SE_low_mass_2}. - -\begin{figure}[h] -\centering -\includegraphics[scale=0.6]{./Imgs/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_result.jpg} -\caption{Low Mass Spacewire shielding effectiveness} -\label{fig_SE_low_mass_1} -\end{figure} - -\begin{figure}[h] -\centering -\includegraphics[scale=0.6]{./Imgs/Low_mass_spacewire_SE_10x10cm.jpg} -\caption{Low Mass Spacewire shielding effectiveness which shields connected every 10cm} -\label{fig_SE_low_mass_2} -\end{figure} - -\subsection{SpaceWire connector model} - -The SpaceWire connector model is specified as a Dconnector in the SACAMOS software. The parameters for the Dconnector model are obtained from the standard \cite{3401/071} as follows: - -\begin{enumerate} - - \item conductor\_radius: fig 2.1 a,b - - \item conductor\_pitch (x\_separation): fig 2.1 a,b - - \item conductor y\_separation: fig 2.1 a,b - - \item offset from conductors to shell:fig 2.1 a,b; 0.5*(G-y\_separation-2*conductor\_radius) - -\end{enumerate} - - -\begin{verbatim} -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Dconnector -10 # number of conductors. This model from ESCC 3401/071, 9 pin connector -4 # number of parameters -0.43e-3 # parameter 1: conductor radius: fig 2.1 a,b -1.27e-3 # parameter 2: conductor pitch (separation in x): fig 2.1 a,b -1.09e-3 # parameter 3: conductor separation in y: fig 2.1 a,b -1.37e-3 # parameter 4: offset from conductors to shell:fig 2.1 a,b; 0.5*(G-yseparation-2*rw) -0 # number of frequency dependent parameters -0 # number of transfer impedance models -use_laplace -\end{verbatim} - - - -\clearpage diff --git a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/Makefile b/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/Makefile deleted file mode 100644 index 77f68e5..0000000 --- a/SPACECRAFT_CABLE_MOD/NOTES_ON_MOD_DEVELOPMENT/Makefile +++ /dev/null @@ -1,20 +0,0 @@ -default: mod_document - -TOP_LEVEL_DIRECTORY:=$(shell pwd) - -export TOP_LEVEL_DIRECTORY - -help: - @echo "make : make SACAMOS_Spacecraft_cable_MOD_development.pdf " - @echo "make install : make SACAMOS_Spacecraft_cable_MOD_development.pdf and move to the top level" - @echo "make clean : clean all LaTeX files" - -mod_document: - ( cd MOD_DOCUMENT ; $(MAKE) ) - -install: - ( cd MOD_DOCUMENT ; $(MAKE) ) - ( mv MOD_DOCUMENT/SACAMOS_Spacecraft_cable_MOD_development.pdf .. ) - -clean: - ( cd MOD_DOCUMENT ; make clean ) diff --git a/SPACECRAFT_CABLE_MOD/SACAMOS_Spacecraft_cable_MOD_development.pdf b/SPACECRAFT_CABLE_MOD/SACAMOS_Spacecraft_cable_MOD_development.pdf deleted file mode 100644 index ddd4b3a..0000000 Binary files a/SPACECRAFT_CABLE_MOD/SACAMOS_Spacecraft_cable_MOD_development.pdf and /dev/null differ diff --git a/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_AWG_26_ESCC_3901025_V12.cable_spec b/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_AWG_26_ESCC_3901025_V12.cable_spec deleted file mode 100644 index bf7c0d6..0000000 --- a/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_AWG_26_ESCC_3901025_V12.cable_spec +++ /dev/null @@ -1,34 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Shielded_twisted_pair -3 # number of conductors -8 # number of parameters - 2.185E-04 # parameter 1: inner conductor radius - 3.400E-04 # parameter 2: inner dielectric radius - 6.900E-04 # parameter 3: inner conductor separation - 7.000E-04 # parameter 4: shield radius - 0.000E+00 # parameter 5: shield thickness - 9.000E-04 # parameter 6:outer dielectric radius - 3.922E+07 # parameter 7: inner conductor conductivity - 3.922E+07 # parameter 8: shield conductivity -2 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -1 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.400E-01 2.700E-09 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec b/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec deleted file mode 100644 index 3e9d81d..0000000 --- a/SPACECRAFT_CABLE_MOD/SHIELDED_TWISTED_PAIR_CABLE_MODELS/STP_RS422_AWG_26_ESCC_3902002_V24.cable_spec +++ /dev/null @@ -1,34 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Shielded_twisted_pair -3 # number of conductors -8 # number of parameters - 2.111E-04 # parameter 1: inner conductor radius - 5.000E-04 # parameter 2: inner dielectric radius - 1.010E-03 # parameter 3: inner conductor separation - 1.050E-03 # parameter 4: shield radius - 0.000E+00 # parameter 5: shield thickness - 1.250E-03 # parameter 6:outer dielectric radius - 4.492E+07 # parameter 7: inner conductor conductivity - 4.492E+07 # parameter 8: shield conductivity -2 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.300E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -1 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.000E-01 5.035E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec b/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec deleted file mode 100644 index 549ddcd..0000000 --- a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 1.739E-04 # parameter 1: inner conductor radius - 3.775E-04 # parameter 2: inner dielectric radius - 7.650E-04 # parameter 3: inner conductor separation - 7.700E-04 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 8.100E-04 # parameter 6: inner shield jacket radius - 1.153E-03 # parameter 7: shielded twisted pair radius - 2.050E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 2.250E-03 # parameter 10:outer dielectric radius - 4.112E+07 # parameter 11: inner wire conductor conductivity - 3.6E+07 # parameter 12: inner shield conductivity - 3.6E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.000E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.300E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 6.700E-02 1.000E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.400E-02 -4.400E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec b/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec deleted file mode 100644 index 7e0b093..0000000 --- a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_26_ESCC_3902003_V2.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 2.119E-04 # parameter 1: inner conductor radius - 3.725E-04 # parameter 2: inner dielectric radius - 7.550E-04 # parameter 3: inner conductor separation - 1.000E-03 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 1.200E-03 # parameter 6: inner shield jacket radius - 1.704E-03 # parameter 7: shielded twisted pair radius - 3.250E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 3.500E-03 # parameter 10:outer dielectric radius - 4.461E+07 # parameter 11: inner wire conductor conductivity - 4.461E+07 # parameter 12: inner shield conductivity - 4.461E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 4.100E-02 2.000E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.2e-2 -4.7E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec b/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec deleted file mode 100644 index 466742d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CABLE_MODELS/SPACEWIRE_AWG_28_ESCC_3902003_V1.cable_spec +++ /dev/null @@ -1,51 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Spacewire -13 # number of conductors -13 # number of parameters - 1.683E-04 # parameter 1: inner conductor radius - 3.625E-04 # parameter 2: inner dielectric radius - 7.350E-04 # parameter 3: inner conductor separation - 7.500E-04 # parameter 4: inner shield radius - 0.000E+00 # parameter 5: inner shield thickness - 9.500E-04 # parameter 6: inner shield jacket radius - 1.351E-03 # parameter 7: shielded twisted pair radius - 2.400E-03 # parameter 8: outer shield radius - 0.000E+00 # parameter 9: outer shield thickness - 2.650E-03 # parameter 10:outer dielectric radius - 4.389E+07 # parameter 11: inner wire conductor conductivity - 4.389E+07 # parameter 12: inner shield conductivity - 4.389E+07 # parameter 13: outer shield conductivity -3 # number of frequency dependent parameters -# Inner dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 1.500E+00 -0 # b order, b coefficients follow below: -1.0 -# Shielded twisted pair outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -# Outer dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 -2 # number of frequency dependent transfer impedance models -# Shielded twisted pair transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 6.200E-02 -4.4E-10 -0 # b order, b coefficients follow below: -1.0 -# Outer shield transfer impedance model follows -1.0 # w normalisation constant -1 # a order, a coefficients follow below: - 1.7e-2 -4.7E-10 -0 # b order, b coefficients follow below: -1.0 -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CONNECTOR/SpaceWire_connector.cable_spec b/SPACECRAFT_CABLE_MOD/SPACEWIRE_CONNECTOR/SpaceWire_connector.cable_spec deleted file mode 100644 index 447c0a0..0000000 --- a/SPACECRAFT_CABLE_MOD/SPACEWIRE_CONNECTOR/SpaceWire_connector.cable_spec +++ /dev/null @@ -1,15 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Dconnector -10 # number of conductors. This model from ESCC 3401/071, 9 pin connector -4 # number of parameters -0.43e-3 # parameter 1: conductor radius: fig 2.1 a,b -1.27e-3 # parameter 2: conductor pitch (separation in x): fig 2.1 a,b -1.09e-3 # parameter 3: conductor separation in y: fig 2.1 a,b -1.37e-3 # parameter 4: offset from conductors to shell:fig 2.1 a,b; 0.5*(G-yseparation-2*rw) -0 # number of frequency dependent parameters -0 # number of transfer impedance models -use_laplace -plot_mesh -plot_potential - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec deleted file mode 100644 index 3afbc9c..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec deleted file mode 100644 index 9ec3ae9..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,84 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e5 1e9 100 # fmin fmax number_of_frequencies diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/analytic_solution.dat_reference deleted file mode 100644 index 543c300..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 -2.2316525196785768E-002 - 100926.21909870484 -2.2318586409797444E-002 - 101861.01701559752 -2.2320685666289405E-002 - 102804.47320933097 -2.2322823662477755E-002 - 103756.66787451849 -2.2325001107074836E-002 - 104717.68194855202 -2.2327218721543540E-002 - 105687.59711848051 -2.2329477240298469E-002 - 106666.49582795388 -2.2331777410935109E-002 - 107654.46128423158 -2.2334119994446466E-002 - 108651.57746525372 -2.2336505765478333E-002 - 109657.92912678099 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963793479.96157956 -0.77549653974969479 - 972720319.24505568 -0.77906369283031451 - 981729840.61888206 -0.78258589663689604 - 990822809.90037870 -0.78607928317207854 - 1000000000.0000000 -0.78957003280940230 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/result_comparison.dat_reference deleted file mode 100644 index 32ab1fb..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.01698491 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/spice_solution.dat_reference deleted file mode 100644 index 388ab12..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:10:24 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -0 1.000000e+05 -2.21401e-02 -1 1.009253e+05 -2.21401e-02 -2 1.018591e+05 -2.21401e-02 -3 1.028016e+05 -2.21401e-02 -4 1.037528e+05 -2.21401e-02 -5 1.047129e+05 -2.21401e-02 -6 1.056818e+05 -2.21401e-02 -7 1.066596e+05 -2.21401e-02 -8 1.076465e+05 -2.21401e-02 -9 1.086426e+05 -2.21401e-02 -10 1.096478e+05 -2.21401e-02 -11 1.106624e+05 -2.21401e-02 -12 1.116863e+05 -2.21401e-02 -13 1.127197e+05 -2.21402e-02 -14 1.137627e+05 -2.21402e-02 -15 1.148154e+05 -2.21402e-02 -16 1.158777e+05 -2.21402e-02 -17 1.169499e+05 -2.21402e-02 -18 1.180321e+05 -2.21402e-02 -19 1.191242e+05 -2.21402e-02 -20 1.202264e+05 -2.21402e-02 -21 1.213389e+05 -2.21402e-02 -22 1.224616e+05 -2.21402e-02 -23 1.235947e+05 -2.21402e-02 -24 1.247384e+05 -2.21402e-02 -25 1.258925e+05 -2.21402e-02 -26 1.270574e+05 -2.21402e-02 -27 1.282331e+05 -2.21402e-02 -28 1.294196e+05 -2.21403e-02 -29 1.306171e+05 -2.21403e-02 -30 1.318257e+05 -2.21403e-02 -31 1.330454e+05 -2.21403e-02 -32 1.342765e+05 -2.21403e-02 -33 1.355189e+05 -2.21403e-02 -34 1.367729e+05 -2.21403e-02 -35 1.380384e+05 -2.21403e-02 -36 1.393157e+05 -2.21403e-02 -37 1.406048e+05 -2.21403e-02 -38 1.419058e+05 -2.21403e-02 -39 1.432188e+05 -2.21403e-02 -40 1.445440e+05 -2.21404e-02 -41 1.458814e+05 -2.21404e-02 -42 1.472313e+05 -2.21404e-02 -43 1.485936e+05 -2.21404e-02 -44 1.499685e+05 -2.21404e-02 -45 1.513561e+05 -2.21404e-02 -46 1.527566e+05 -2.21404e-02 -47 1.541700e+05 -2.21404e-02 -48 1.555966e+05 -2.21404e-02 -49 1.570363e+05 -2.21405e-02 -50 1.584893e+05 -2.21405e-02 -51 1.599558e+05 -2.21405e-02 -52 1.614359e+05 -2.21405e-02 -53 1.629296e+05 -2.21405e-02 -54 1.644372e+05 -2.21405e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -55 1.659587e+05 -2.21405e-02 -56 1.674943e+05 -2.21405e-02 -57 1.690441e+05 -2.21406e-02 -58 1.706082e+05 -2.21406e-02 -59 1.721869e+05 -2.21406e-02 -60 1.737801e+05 -2.21406e-02 -61 1.753881e+05 -2.21406e-02 -62 1.770109e+05 -2.21406e-02 -63 1.786488e+05 -2.21406e-02 -64 1.803018e+05 -2.21407e-02 -65 1.819701e+05 -2.21407e-02 -66 1.836538e+05 -2.21407e-02 -67 1.853532e+05 -2.21407e-02 -68 1.870682e+05 -2.21407e-02 -69 1.887991e+05 -2.21407e-02 -70 1.905461e+05 -2.21408e-02 -71 1.923092e+05 -2.21408e-02 -72 1.940886e+05 -2.21408e-02 -73 1.958845e+05 -2.21408e-02 -74 1.976970e+05 -2.21408e-02 -75 1.995262e+05 -2.21408e-02 -76 2.013724e+05 -2.21409e-02 -77 2.032357e+05 -2.21409e-02 -78 2.051162e+05 -2.21409e-02 -79 2.070141e+05 -2.21409e-02 -80 2.089296e+05 -2.21409e-02 -81 2.108628e+05 -2.21410e-02 -82 2.128139e+05 -2.21410e-02 -83 2.147830e+05 -2.21410e-02 -84 2.167704e+05 -2.21410e-02 -85 2.187762e+05 -2.21410e-02 -86 2.208005e+05 -2.21411e-02 -87 2.228435e+05 -2.21411e-02 -88 2.249055e+05 -2.21411e-02 -89 2.269865e+05 -2.21411e-02 -90 2.290868e+05 -2.21412e-02 -91 2.312065e+05 -2.21412e-02 -92 2.333458e+05 -2.21412e-02 -93 2.355049e+05 -2.21412e-02 -94 2.376840e+05 -2.21413e-02 -95 2.398833e+05 -2.21413e-02 -96 2.421029e+05 -2.21413e-02 -97 2.443431e+05 -2.21413e-02 -98 2.466039e+05 -2.21414e-02 -99 2.488857e+05 -2.21414e-02 -100 2.511886e+05 -2.21414e-02 -101 2.535129e+05 -2.21415e-02 -102 2.558586e+05 -2.21415e-02 -103 2.582260e+05 -2.21415e-02 -104 2.606154e+05 -2.21416e-02 -105 2.630268e+05 -2.21416e-02 -106 2.654606e+05 -2.21416e-02 -107 2.679168e+05 -2.21417e-02 -108 2.703958e+05 -2.21417e-02 -109 2.728978e+05 -2.21417e-02 -110 2.754229e+05 -2.21418e-02 -111 2.779713e+05 -2.21418e-02 -112 2.805434e+05 -2.21418e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -113 2.831392e+05 -2.21419e-02 -114 2.857591e+05 -2.21419e-02 -115 2.884032e+05 -2.21419e-02 -116 2.910717e+05 -2.21420e-02 -117 2.937650e+05 -2.21420e-02 -118 2.964831e+05 -2.21421e-02 -119 2.992265e+05 -2.21421e-02 -120 3.019952e+05 -2.21421e-02 -121 3.047895e+05 -2.21422e-02 -122 3.076097e+05 -2.21422e-02 -123 3.104560e+05 -2.21423e-02 -124 3.133286e+05 -2.21423e-02 -125 3.162278e+05 -2.21424e-02 -126 3.191538e+05 -2.21424e-02 -127 3.221069e+05 -2.21425e-02 -128 3.250873e+05 -2.21425e-02 -129 3.280953e+05 -2.21426e-02 -130 3.311311e+05 -2.21426e-02 -131 3.341950e+05 -2.21427e-02 -132 3.372873e+05 -2.21427e-02 -133 3.404082e+05 -2.21428e-02 -134 3.435579e+05 -2.21428e-02 -135 3.467369e+05 -2.21429e-02 -136 3.499452e+05 -2.21429e-02 -137 3.531832e+05 -2.21430e-02 -138 3.564511e+05 -2.21431e-02 -139 3.597493e+05 -2.21431e-02 -140 3.630781e+05 -2.21432e-02 -141 3.664376e+05 -2.21432e-02 -142 3.698282e+05 -2.21433e-02 -143 3.732502e+05 -2.21434e-02 -144 3.767038e+05 -2.21434e-02 -145 3.801894e+05 -2.21435e-02 -146 3.837072e+05 -2.21436e-02 -147 3.872576e+05 -2.21436e-02 -148 3.908409e+05 -2.21437e-02 -149 3.944573e+05 -2.21438e-02 -150 3.981072e+05 -2.21438e-02 -151 4.017908e+05 -2.21439e-02 -152 4.055085e+05 -2.21440e-02 -153 4.092607e+05 -2.21441e-02 -154 4.130475e+05 -2.21442e-02 -155 4.168694e+05 -2.21442e-02 -156 4.207266e+05 -2.21443e-02 -157 4.246196e+05 -2.21444e-02 -158 4.285485e+05 -2.21445e-02 -159 4.325138e+05 -2.21446e-02 -160 4.365158e+05 -2.21447e-02 -161 4.405549e+05 -2.21448e-02 -162 4.446313e+05 -2.21448e-02 -163 4.487454e+05 -2.21449e-02 -164 4.528976e+05 -2.21450e-02 -165 4.570882e+05 -2.21451e-02 -166 4.613176e+05 -2.21452e-02 -167 4.655861e+05 -2.21453e-02 -168 4.698941e+05 -2.21454e-02 -169 4.742420e+05 -2.21455e-02 -170 4.786301e+05 -2.21456e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -171 4.830588e+05 -2.21457e-02 -172 4.875285e+05 -2.21459e-02 -173 4.920395e+05 -2.21460e-02 -174 4.965923e+05 -2.21461e-02 -175 5.011872e+05 -2.21462e-02 -176 5.058247e+05 -2.21463e-02 -177 5.105050e+05 -2.21464e-02 -178 5.152286e+05 -2.21466e-02 -179 5.199960e+05 -2.21467e-02 -180 5.248075e+05 -2.21468e-02 -181 5.296634e+05 -2.21469e-02 -182 5.345644e+05 -2.21471e-02 -183 5.395106e+05 -2.21472e-02 -184 5.445027e+05 -2.21473e-02 -185 5.495409e+05 -2.21475e-02 -186 5.546257e+05 -2.21476e-02 -187 5.597576e+05 -2.21478e-02 -188 5.649370e+05 -2.21479e-02 -189 5.701643e+05 -2.21481e-02 -190 5.754399e+05 -2.21482e-02 -191 5.807644e+05 -2.21484e-02 -192 5.861382e+05 -2.21485e-02 -193 5.915616e+05 -2.21487e-02 -194 5.970353e+05 -2.21489e-02 -195 6.025596e+05 -2.21490e-02 -196 6.081350e+05 -2.21492e-02 -197 6.137620e+05 -2.21494e-02 -198 6.194411e+05 -2.21496e-02 -199 6.251727e+05 -2.21497e-02 -200 6.309573e+05 -2.21499e-02 -201 6.367955e+05 -2.21501e-02 -202 6.426877e+05 -2.21503e-02 -203 6.486344e+05 -2.21505e-02 -204 6.546362e+05 -2.21507e-02 -205 6.606934e+05 -2.21509e-02 -206 6.668068e+05 -2.21511e-02 -207 6.729767e+05 -2.21513e-02 -208 6.792036e+05 -2.21515e-02 -209 6.854882e+05 -2.21517e-02 -210 6.918310e+05 -2.21520e-02 -211 6.982324e+05 -2.21522e-02 -212 7.046931e+05 -2.21524e-02 -213 7.112135e+05 -2.21527e-02 -214 7.177943e+05 -2.21529e-02 -215 7.244360e+05 -2.21531e-02 -216 7.311391e+05 -2.21534e-02 -217 7.379042e+05 -2.21536e-02 -218 7.447320e+05 -2.21539e-02 -219 7.516229e+05 -2.21542e-02 -220 7.585776e+05 -2.21544e-02 -221 7.655966e+05 -2.21547e-02 -222 7.726806e+05 -2.21550e-02 -223 7.798301e+05 -2.21553e-02 -224 7.870458e+05 -2.21555e-02 -225 7.943282e+05 -2.21558e-02 -226 8.016781e+05 -2.21561e-02 -227 8.090959e+05 -2.21564e-02 -228 8.165824e+05 -2.21567e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -229 8.241381e+05 -2.21571e-02 -230 8.317638e+05 -2.21574e-02 -231 8.394600e+05 -2.21577e-02 -232 8.472274e+05 -2.21580e-02 -233 8.550667e+05 -2.21584e-02 -234 8.629785e+05 -2.21587e-02 -235 8.709636e+05 -2.21591e-02 -236 8.790225e+05 -2.21594e-02 -237 8.871560e+05 -2.21598e-02 -238 8.953648e+05 -2.21602e-02 -239 9.036495e+05 -2.21605e-02 -240 9.120108e+05 -2.21609e-02 -241 9.204496e+05 -2.21613e-02 -242 9.289664e+05 -2.21617e-02 -243 9.375620e+05 -2.21621e-02 -244 9.462372e+05 -2.21625e-02 -245 9.549926e+05 -2.21630e-02 -246 9.638290e+05 -2.21634e-02 -247 9.727472e+05 -2.21638e-02 -248 9.817479e+05 -2.21643e-02 -249 9.908319e+05 -2.21647e-02 -250 1.000000e+06 -2.21652e-02 -251 1.009253e+06 -2.21657e-02 -252 1.018591e+06 -2.21661e-02 -253 1.028016e+06 -2.21666e-02 -254 1.037528e+06 -2.21671e-02 -255 1.047129e+06 -2.21676e-02 -256 1.056818e+06 -2.21682e-02 -257 1.066596e+06 -2.21687e-02 -258 1.076465e+06 -2.21692e-02 -259 1.086426e+06 -2.21698e-02 -260 1.096478e+06 -2.21703e-02 -261 1.106624e+06 -2.21709e-02 -262 1.116863e+06 -2.21715e-02 -263 1.127197e+06 -2.21721e-02 -264 1.137627e+06 -2.21727e-02 -265 1.148154e+06 -2.21733e-02 -266 1.158777e+06 -2.21739e-02 -267 1.169499e+06 -2.21745e-02 -268 1.180321e+06 -2.21752e-02 -269 1.191242e+06 -2.21758e-02 -270 1.202264e+06 -2.21765e-02 -271 1.213389e+06 -2.21772e-02 -272 1.224616e+06 -2.21779e-02 -273 1.235947e+06 -2.21786e-02 -274 1.247384e+06 -2.21793e-02 -275 1.258925e+06 -2.21800e-02 -276 1.270574e+06 -2.21808e-02 -277 1.282331e+06 -2.21815e-02 -278 1.294196e+06 -2.21823e-02 -279 1.306171e+06 -2.21831e-02 -280 1.318257e+06 -2.21839e-02 -281 1.330454e+06 -2.21847e-02 -282 1.342765e+06 -2.21856e-02 -283 1.355189e+06 -2.21864e-02 -284 1.367729e+06 -2.21873e-02 -285 1.380384e+06 -2.21882e-02 -286 1.393157e+06 -2.21891e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -287 1.406048e+06 -2.21900e-02 -288 1.419058e+06 -2.21909e-02 -289 1.432188e+06 -2.21918e-02 -290 1.445440e+06 -2.21928e-02 -291 1.458814e+06 -2.21938e-02 -292 1.472313e+06 -2.21948e-02 -293 1.485936e+06 -2.21958e-02 -294 1.499685e+06 -2.21969e-02 -295 1.513561e+06 -2.21979e-02 -296 1.527566e+06 -2.21990e-02 -297 1.541700e+06 -2.22001e-02 -298 1.555966e+06 -2.22012e-02 -299 1.570363e+06 -2.22024e-02 -300 1.584893e+06 -2.22035e-02 -301 1.599558e+06 -2.22047e-02 -302 1.614359e+06 -2.22059e-02 -303 1.629296e+06 -2.22071e-02 -304 1.644372e+06 -2.22084e-02 -305 1.659587e+06 -2.22097e-02 -306 1.674943e+06 -2.22110e-02 -307 1.690441e+06 -2.22123e-02 -308 1.706082e+06 -2.22136e-02 -309 1.721869e+06 -2.22150e-02 -310 1.737801e+06 -2.22164e-02 -311 1.753881e+06 -2.22178e-02 -312 1.770109e+06 -2.22193e-02 -313 1.786488e+06 -2.22208e-02 -314 1.803018e+06 -2.22223e-02 -315 1.819701e+06 -2.22238e-02 -316 1.836538e+06 -2.22254e-02 -317 1.853532e+06 -2.22270e-02 -318 1.870682e+06 -2.22286e-02 -319 1.887991e+06 -2.22302e-02 -320 1.905461e+06 -2.22319e-02 -321 1.923092e+06 -2.22336e-02 -322 1.940886e+06 -2.22354e-02 -323 1.958845e+06 -2.22371e-02 -324 1.976970e+06 -2.22389e-02 -325 1.995262e+06 -2.22408e-02 -326 2.013724e+06 -2.22427e-02 -327 2.032357e+06 -2.22446e-02 -328 2.051162e+06 -2.22465e-02 -329 2.070141e+06 -2.22485e-02 -330 2.089296e+06 -2.22505e-02 -331 2.108628e+06 -2.22526e-02 -332 2.128139e+06 -2.22547e-02 -333 2.147830e+06 -2.22568e-02 -334 2.167704e+06 -2.22590e-02 -335 2.187762e+06 -2.22612e-02 -336 2.208005e+06 -2.22635e-02 -337 2.228435e+06 -2.22657e-02 -338 2.249055e+06 -2.22681e-02 -339 2.269865e+06 -2.22705e-02 -340 2.290868e+06 -2.22729e-02 -341 2.312065e+06 -2.22754e-02 -342 2.333458e+06 -2.22779e-02 -343 2.355049e+06 -2.22805e-02 -344 2.376840e+06 -2.22831e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -345 2.398833e+06 -2.22857e-02 -346 2.421029e+06 -2.22884e-02 -347 2.443431e+06 -2.22912e-02 -348 2.466039e+06 -2.22940e-02 -349 2.488857e+06 -2.22969e-02 -350 2.511886e+06 -2.22998e-02 -351 2.535129e+06 -2.23028e-02 -352 2.558586e+06 -2.23058e-02 -353 2.582260e+06 -2.23089e-02 -354 2.606154e+06 -2.23120e-02 -355 2.630268e+06 -2.23152e-02 -356 2.654606e+06 -2.23185e-02 -357 2.679168e+06 -2.23218e-02 -358 2.703958e+06 -2.23252e-02 -359 2.728978e+06 -2.23286e-02 -360 2.754229e+06 -2.23321e-02 -361 2.779713e+06 -2.23357e-02 -362 2.805434e+06 -2.23394e-02 -363 2.831392e+06 -2.23431e-02 -364 2.857591e+06 -2.23468e-02 -365 2.884032e+06 -2.23507e-02 -366 2.910717e+06 -2.23546e-02 -367 2.937650e+06 -2.23586e-02 -368 2.964831e+06 -2.23627e-02 -369 2.992265e+06 -2.23668e-02 -370 3.019952e+06 -2.23710e-02 -371 3.047895e+06 -2.23753e-02 -372 3.076097e+06 -2.23797e-02 -373 3.104560e+06 -2.23842e-02 -374 3.133286e+06 -2.23887e-02 -375 3.162278e+06 -2.23933e-02 -376 3.191538e+06 -2.23980e-02 -377 3.221069e+06 -2.24028e-02 -378 3.250873e+06 -2.24077e-02 -379 3.280953e+06 -2.24127e-02 -380 3.311311e+06 -2.24178e-02 -381 3.341950e+06 -2.24229e-02 -382 3.372873e+06 -2.24282e-02 -383 3.404082e+06 -2.24335e-02 -384 3.435579e+06 -2.24390e-02 -385 3.467369e+06 -2.24446e-02 -386 3.499452e+06 -2.24502e-02 -387 3.531832e+06 -2.24560e-02 -388 3.564511e+06 -2.24619e-02 -389 3.597493e+06 -2.24678e-02 -390 3.630781e+06 -2.24739e-02 -391 3.664376e+06 -2.24801e-02 -392 3.698282e+06 -2.24865e-02 -393 3.732502e+06 -2.24929e-02 -394 3.767038e+06 -2.24995e-02 -395 3.801894e+06 -2.25061e-02 -396 3.837072e+06 -2.25129e-02 -397 3.872576e+06 -2.25199e-02 -398 3.908409e+06 -2.25269e-02 -399 3.944573e+06 -2.25341e-02 -400 3.981072e+06 -2.25415e-02 -401 4.017908e+06 -2.25489e-02 -402 4.055085e+06 -2.25565e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -403 4.092607e+06 -2.25643e-02 -404 4.130475e+06 -2.25721e-02 -405 4.168694e+06 -2.25802e-02 -406 4.207266e+06 -2.25883e-02 -407 4.246196e+06 -2.25967e-02 -408 4.285485e+06 -2.26052e-02 -409 4.325138e+06 -2.26138e-02 -410 4.365158e+06 -2.26226e-02 -411 4.405549e+06 -2.26316e-02 -412 4.446313e+06 -2.26407e-02 -413 4.487454e+06 -2.26500e-02 -414 4.528976e+06 -2.26595e-02 -415 4.570882e+06 -2.26691e-02 -416 4.613176e+06 -2.26790e-02 -417 4.655861e+06 -2.26890e-02 -418 4.698941e+06 -2.26992e-02 -419 4.742420e+06 -2.27095e-02 -420 4.786301e+06 -2.27201e-02 -421 4.830588e+06 -2.27309e-02 -422 4.875285e+06 -2.27419e-02 -423 4.920395e+06 -2.27530e-02 -424 4.965923e+06 -2.27644e-02 -425 5.011872e+06 -2.27760e-02 -426 5.058247e+06 -2.27878e-02 -427 5.105050e+06 -2.27999e-02 -428 5.152286e+06 -2.28121e-02 -429 5.199960e+06 -2.28246e-02 -430 5.248075e+06 -2.28373e-02 -431 5.296634e+06 -2.28503e-02 -432 5.345644e+06 -2.28634e-02 -433 5.395106e+06 -2.28769e-02 -434 5.445027e+06 -2.28906e-02 -435 5.495409e+06 -2.29045e-02 -436 5.546257e+06 -2.29187e-02 -437 5.597576e+06 -2.29331e-02 -438 5.649370e+06 -2.29479e-02 -439 5.701643e+06 -2.29629e-02 -440 5.754399e+06 -2.29781e-02 -441 5.807644e+06 -2.29937e-02 -442 5.861382e+06 -2.30095e-02 -443 5.915616e+06 -2.30257e-02 -444 5.970353e+06 -2.30421e-02 -445 6.025596e+06 -2.30588e-02 -446 6.081350e+06 -2.30759e-02 -447 6.137620e+06 -2.30932e-02 -448 6.194411e+06 -2.31109e-02 -449 6.251727e+06 -2.31290e-02 -450 6.309573e+06 -2.31473e-02 -451 6.367955e+06 -2.31660e-02 -452 6.426877e+06 -2.31850e-02 -453 6.486344e+06 -2.32044e-02 -454 6.546362e+06 -2.32241e-02 -455 6.606934e+06 -2.32443e-02 -456 6.668068e+06 -2.32647e-02 -457 6.729767e+06 -2.32856e-02 -458 6.792036e+06 -2.33068e-02 -459 6.854882e+06 -2.33285e-02 -460 6.918310e+06 -2.33505e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -461 6.982324e+06 -2.33730e-02 -462 7.046931e+06 -2.33958e-02 -463 7.112135e+06 -2.34191e-02 -464 7.177943e+06 -2.34428e-02 -465 7.244360e+06 -2.34670e-02 -466 7.311391e+06 -2.34916e-02 -467 7.379042e+06 -2.35166e-02 -468 7.447320e+06 -2.35421e-02 -469 7.516229e+06 -2.35681e-02 -470 7.585776e+06 -2.35946e-02 -471 7.655966e+06 -2.36216e-02 -472 7.726806e+06 -2.36490e-02 -473 7.798301e+06 -2.36770e-02 -474 7.870458e+06 -2.37055e-02 -475 7.943282e+06 -2.37345e-02 -476 8.016781e+06 -2.37640e-02 -477 8.090959e+06 -2.37941e-02 -478 8.165824e+06 -2.38247e-02 -479 8.241381e+06 -2.38559e-02 -480 8.317638e+06 -2.38877e-02 -481 8.394600e+06 -2.39201e-02 -482 8.472274e+06 -2.39530e-02 -483 8.550667e+06 -2.39866e-02 -484 8.629785e+06 -2.40208e-02 -485 8.709636e+06 -2.40556e-02 -486 8.790225e+06 -2.40911e-02 -487 8.871560e+06 -2.41272e-02 -488 8.953648e+06 -2.41640e-02 -489 9.036495e+06 -2.42014e-02 -490 9.120108e+06 -2.42396e-02 -491 9.204496e+06 -2.42784e-02 -492 9.289664e+06 -2.43180e-02 -493 9.375620e+06 -2.43583e-02 -494 9.462372e+06 -2.43993e-02 -495 9.549926e+06 -2.44411e-02 -496 9.638290e+06 -2.44837e-02 -497 9.727472e+06 -2.45270e-02 -498 9.817479e+06 -2.45712e-02 -499 9.908319e+06 -2.46161e-02 -500 1.000000e+07 -2.46619e-02 -501 1.009253e+07 -2.47085e-02 -502 1.018591e+07 -2.47560e-02 -503 1.028016e+07 -2.48043e-02 -504 1.037528e+07 -2.48536e-02 -505 1.047129e+07 -2.49037e-02 -506 1.056818e+07 -2.49548e-02 -507 1.066596e+07 -2.50068e-02 -508 1.076465e+07 -2.50597e-02 -509 1.086426e+07 -2.51136e-02 -510 1.096478e+07 -2.51686e-02 -511 1.106624e+07 -2.52245e-02 -512 1.116863e+07 -2.52814e-02 -513 1.127197e+07 -2.53394e-02 -514 1.137627e+07 -2.53985e-02 -515 1.148154e+07 -2.54586e-02 -516 1.158777e+07 -2.55198e-02 -517 1.169499e+07 -2.55822e-02 -518 1.180321e+07 -2.56457e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -519 1.191242e+07 -2.57103e-02 -520 1.202264e+07 -2.57762e-02 -521 1.213389e+07 -2.58432e-02 -522 1.224616e+07 -2.59115e-02 -523 1.235947e+07 -2.59810e-02 -524 1.247384e+07 -2.60518e-02 -525 1.258925e+07 -2.61239e-02 -526 1.270574e+07 -2.61973e-02 -527 1.282331e+07 -2.62720e-02 -528 1.294196e+07 -2.63481e-02 -529 1.306171e+07 -2.64256e-02 -530 1.318257e+07 -2.65045e-02 -531 1.330454e+07 -2.65848e-02 -532 1.342765e+07 -2.66666e-02 -533 1.355189e+07 -2.67499e-02 -534 1.367729e+07 -2.68347e-02 -535 1.380384e+07 -2.69211e-02 -536 1.393157e+07 -2.70090e-02 -537 1.406048e+07 -2.70985e-02 -538 1.419058e+07 -2.71897e-02 -539 1.432188e+07 -2.72825e-02 -540 1.445440e+07 -2.73770e-02 -541 1.458814e+07 -2.74732e-02 -542 1.472313e+07 -2.75711e-02 -543 1.485936e+07 -2.76709e-02 -544 1.499685e+07 -2.77724e-02 -545 1.513561e+07 -2.78758e-02 -546 1.527566e+07 -2.79810e-02 -547 1.541700e+07 -2.80882e-02 -548 1.555966e+07 -2.81973e-02 -549 1.570363e+07 -2.83083e-02 -550 1.584893e+07 -2.84214e-02 -551 1.599558e+07 -2.85365e-02 -552 1.614359e+07 -2.86537e-02 -553 1.629296e+07 -2.87730e-02 -554 1.644372e+07 -2.88945e-02 -555 1.659587e+07 -2.90181e-02 -556 1.674943e+07 -2.91440e-02 -557 1.690441e+07 -2.92721e-02 -558 1.706082e+07 -2.94026e-02 -559 1.721869e+07 -2.95354e-02 -560 1.737801e+07 -2.96705e-02 -561 1.753881e+07 -2.98081e-02 -562 1.770109e+07 -2.99482e-02 -563 1.786488e+07 -3.00908e-02 -564 1.803018e+07 -3.02360e-02 -565 1.819701e+07 -3.03837e-02 -566 1.836538e+07 -3.05341e-02 -567 1.853532e+07 -3.06872e-02 -568 1.870682e+07 -3.08430e-02 -569 1.887991e+07 -3.10016e-02 -570 1.905461e+07 -3.11630e-02 -571 1.923092e+07 -3.13273e-02 -572 1.940886e+07 -3.14946e-02 -573 1.958845e+07 -3.16648e-02 -574 1.976970e+07 -3.18380e-02 -575 1.995262e+07 -3.20143e-02 -576 2.013724e+07 -3.21938e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -577 2.032357e+07 -3.23764e-02 -578 2.051162e+07 -3.25623e-02 -579 2.070141e+07 -3.27515e-02 -580 2.089296e+07 -3.29440e-02 -581 2.108628e+07 -3.31399e-02 -582 2.128139e+07 -3.33393e-02 -583 2.147830e+07 -3.35422e-02 -584 2.167704e+07 -3.37487e-02 -585 2.187762e+07 -3.39588e-02 -586 2.208005e+07 -3.41726e-02 -587 2.228435e+07 -3.43902e-02 -588 2.249055e+07 -3.46116e-02 -589 2.269865e+07 -3.48369e-02 -590 2.290868e+07 -3.50662e-02 -591 2.312065e+07 -3.52994e-02 -592 2.333458e+07 -3.55367e-02 -593 2.355049e+07 -3.57782e-02 -594 2.376840e+07 -3.60239e-02 -595 2.398833e+07 -3.62739e-02 -596 2.421029e+07 -3.65282e-02 -597 2.443431e+07 -3.67869e-02 -598 2.466039e+07 -3.70502e-02 -599 2.488857e+07 -3.73180e-02 -600 2.511886e+07 -3.75904e-02 -601 2.535129e+07 -3.78676e-02 -602 2.558586e+07 -3.81495e-02 -603 2.582260e+07 -3.84363e-02 -604 2.606154e+07 -3.87281e-02 -605 2.630268e+07 -3.90248e-02 -606 2.654606e+07 -3.93267e-02 -607 2.679168e+07 -3.96337e-02 -608 2.703958e+07 -3.99460e-02 -609 2.728978e+07 -4.02637e-02 -610 2.754229e+07 -4.05867e-02 -611 2.779713e+07 -4.09153e-02 -612 2.805434e+07 -4.12495e-02 -613 2.831392e+07 -4.15893e-02 -614 2.857591e+07 -4.19349e-02 -615 2.884032e+07 -4.22864e-02 -616 2.910717e+07 -4.26438e-02 -617 2.937650e+07 -4.30072e-02 -618 2.964831e+07 -4.33767e-02 -619 2.992265e+07 -4.37525e-02 -620 3.019952e+07 -4.41346e-02 -621 3.047895e+07 -4.45231e-02 -622 3.076097e+07 -4.49180e-02 -623 3.104560e+07 -4.53196e-02 -624 3.133286e+07 -4.57278e-02 -625 3.162278e+07 -4.61429e-02 -626 3.191538e+07 -4.65648e-02 -627 3.221069e+07 -4.69937e-02 -628 3.250873e+07 -4.74296e-02 -629 3.280953e+07 -4.78728e-02 -630 3.311311e+07 -4.83233e-02 -631 3.341950e+07 -4.87811e-02 -632 3.372873e+07 -4.92464e-02 -633 3.404082e+07 -4.97194e-02 -634 3.435579e+07 -5.02000e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -635 3.467369e+07 -5.06884e-02 -636 3.499452e+07 -5.11848e-02 -637 3.531832e+07 -5.16892e-02 -638 3.564511e+07 -5.22017e-02 -639 3.597493e+07 -5.27224e-02 -640 3.630781e+07 -5.32516e-02 -641 3.664376e+07 -5.37891e-02 -642 3.698282e+07 -5.43353e-02 -643 3.732502e+07 -5.48901e-02 -644 3.767038e+07 -5.54537e-02 -645 3.801894e+07 -5.60263e-02 -646 3.837072e+07 -5.66079e-02 -647 3.872576e+07 -5.71986e-02 -648 3.908409e+07 -5.77986e-02 -649 3.944573e+07 -5.84079e-02 -650 3.981072e+07 -5.90267e-02 -651 4.017908e+07 -5.96552e-02 -652 4.055085e+07 -6.02933e-02 -653 4.092607e+07 -6.09413e-02 -654 4.130475e+07 -6.15993e-02 -655 4.168694e+07 -6.22673e-02 -656 4.207266e+07 -6.29455e-02 -657 4.246196e+07 -6.36340e-02 -658 4.285485e+07 -6.43330e-02 -659 4.325138e+07 -6.50425e-02 -660 4.365158e+07 -6.57626e-02 -661 4.405549e+07 -6.64935e-02 -662 4.446313e+07 -6.72354e-02 -663 4.487454e+07 -6.79882e-02 -664 4.528976e+07 -6.87522e-02 -665 4.570882e+07 -6.95274e-02 -666 4.613176e+07 -7.03140e-02 -667 4.655861e+07 -7.11121e-02 -668 4.698941e+07 -7.19217e-02 -669 4.742420e+07 -7.27431e-02 -670 4.786301e+07 -7.35763e-02 -671 4.830588e+07 -7.44215e-02 -672 4.875285e+07 -7.52787e-02 -673 4.920395e+07 -7.61481e-02 -674 4.965923e+07 -7.70297e-02 -675 5.011872e+07 -7.79238e-02 -676 5.058247e+07 -7.88303e-02 -677 5.105050e+07 -7.97495e-02 -678 5.152286e+07 -8.06814e-02 -679 5.199960e+07 -8.16261e-02 -680 5.248075e+07 -8.25837e-02 -681 5.296634e+07 -8.35544e-02 -682 5.345644e+07 -8.45382e-02 -683 5.395106e+07 -8.55353e-02 -684 5.445027e+07 -8.65457e-02 -685 5.495409e+07 -8.75695e-02 -686 5.546257e+07 -8.86069e-02 -687 5.597576e+07 -8.96579e-02 -688 5.649370e+07 -9.07226e-02 -689 5.701643e+07 -9.18011e-02 -690 5.754399e+07 -9.28935e-02 -691 5.807644e+07 -9.39999e-02 -692 5.861382e+07 -9.51204e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -693 5.915616e+07 -9.62550e-02 -694 5.970353e+07 -9.74039e-02 -695 6.025596e+07 -9.85670e-02 -696 6.081350e+07 -9.97446e-02 -697 6.137620e+07 -1.00937e-01 -698 6.194411e+07 -1.02143e-01 -699 6.251727e+07 -1.03364e-01 -700 6.309573e+07 -1.04600e-01 -701 6.367955e+07 -1.05850e-01 -702 6.426877e+07 -1.07116e-01 -703 6.486344e+07 -1.08396e-01 -704 6.546362e+07 -1.09690e-01 -705 6.606934e+07 -1.11000e-01 -706 6.668068e+07 -1.12325e-01 -707 6.729767e+07 -1.13665e-01 -708 6.792036e+07 -1.15020e-01 -709 6.854882e+07 -1.16390e-01 -710 6.918310e+07 -1.17775e-01 -711 6.982324e+07 -1.19175e-01 -712 7.046931e+07 -1.20590e-01 -713 7.112135e+07 -1.22021e-01 -714 7.177943e+07 -1.23466e-01 -715 7.244360e+07 -1.24927e-01 -716 7.311391e+07 -1.26403e-01 -717 7.379042e+07 -1.27895e-01 -718 7.447320e+07 -1.29401e-01 -719 7.516229e+07 -1.30923e-01 -720 7.585776e+07 -1.32460e-01 -721 7.655966e+07 -1.34012e-01 -722 7.726806e+07 -1.35580e-01 -723 7.798301e+07 -1.37162e-01 -724 7.870458e+07 -1.38760e-01 -725 7.943282e+07 -1.40373e-01 -726 8.016781e+07 -1.42001e-01 -727 8.090959e+07 -1.43644e-01 -728 8.165824e+07 -1.45302e-01 -729 8.241381e+07 -1.46975e-01 -730 8.317638e+07 -1.48663e-01 -731 8.394600e+07 -1.50366e-01 -732 8.472274e+07 -1.52083e-01 -733 8.550667e+07 -1.53816e-01 -734 8.629785e+07 -1.55563e-01 -735 8.709636e+07 -1.57325e-01 -736 8.790225e+07 -1.59101e-01 -737 8.871560e+07 -1.60892e-01 -738 8.953648e+07 -1.62698e-01 -739 9.036495e+07 -1.64517e-01 -740 9.120108e+07 -1.66352e-01 -741 9.204496e+07 -1.68200e-01 -742 9.289664e+07 -1.70062e-01 -743 9.375620e+07 -1.71939e-01 -744 9.462372e+07 -1.73829e-01 -745 9.549926e+07 -1.75733e-01 -746 9.638290e+07 -1.77651e-01 -747 9.727472e+07 -1.79583e-01 -748 9.817479e+07 -1.81528e-01 -749 9.908319e+07 -1.83487e-01 -750 1.000000e+08 -1.85459e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -751 1.009253e+08 -1.87444e-01 -752 1.018591e+08 -1.89442e-01 -753 1.028016e+08 -1.91453e-01 -754 1.037528e+08 -1.93477e-01 -755 1.047129e+08 -1.95514e-01 -756 1.056818e+08 -1.97563e-01 -757 1.066596e+08 -1.99625e-01 -758 1.076465e+08 -2.01699e-01 -759 1.086426e+08 -2.03785e-01 -760 1.096478e+08 -2.05883e-01 -761 1.106624e+08 -2.07993e-01 -762 1.116863e+08 -2.10114e-01 -763 1.127197e+08 -2.12248e-01 -764 1.137627e+08 -2.14392e-01 -765 1.148154e+08 -2.16548e-01 -766 1.158777e+08 -2.18715e-01 -767 1.169499e+08 -2.20893e-01 -768 1.180321e+08 -2.23081e-01 -769 1.191242e+08 -2.25280e-01 -770 1.202264e+08 -2.27489e-01 -771 1.213389e+08 -2.29708e-01 -772 1.224616e+08 -2.31937e-01 -773 1.235947e+08 -2.34176e-01 -774 1.247384e+08 -2.36424e-01 -775 1.258925e+08 -2.38681e-01 -776 1.270574e+08 -2.40948e-01 -777 1.282331e+08 -2.43223e-01 -778 1.294196e+08 -2.45506e-01 -779 1.306171e+08 -2.47798e-01 -780 1.318257e+08 -2.50097e-01 -781 1.330454e+08 -2.52404e-01 -782 1.342765e+08 -2.54718e-01 -783 1.355189e+08 -2.57040e-01 -784 1.367729e+08 -2.59368e-01 -785 1.380384e+08 -2.61702e-01 -786 1.393157e+08 -2.64042e-01 -787 1.406048e+08 -2.66388e-01 -788 1.419058e+08 -2.68738e-01 -789 1.432188e+08 -2.71094e-01 -790 1.445440e+08 -2.73454e-01 -791 1.458814e+08 -2.75818e-01 -792 1.472313e+08 -2.78185e-01 -793 1.485936e+08 -2.80555e-01 -794 1.499685e+08 -2.82928e-01 -795 1.513561e+08 -2.85303e-01 -796 1.527566e+08 -2.87679e-01 -797 1.541700e+08 -2.90056e-01 -798 1.555966e+08 -2.92434e-01 -799 1.570363e+08 -2.94811e-01 -800 1.584893e+08 -2.97188e-01 -801 1.599558e+08 -2.99564e-01 -802 1.614359e+08 -3.01938e-01 -803 1.629296e+08 -3.04309e-01 -804 1.644372e+08 -3.06678e-01 -805 1.659587e+08 -3.09042e-01 -806 1.674943e+08 -3.11403e-01 -807 1.690441e+08 -3.13758e-01 -808 1.706082e+08 -3.16109e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -809 1.721869e+08 -3.18453e-01 -810 1.737801e+08 -3.20790e-01 -811 1.753881e+08 -3.23120e-01 -812 1.770109e+08 -3.25442e-01 -813 1.786488e+08 -3.27756e-01 -814 1.803018e+08 -3.30061e-01 -815 1.819701e+08 -3.32356e-01 -816 1.836538e+08 -3.34641e-01 -817 1.853532e+08 -3.36916e-01 -818 1.870682e+08 -3.39180e-01 -819 1.887991e+08 -3.41432e-01 -820 1.905461e+08 -3.43673e-01 -821 1.923092e+08 -3.45902e-01 -822 1.940886e+08 -3.48118e-01 -823 1.958845e+08 -3.50322e-01 -824 1.976970e+08 -3.52513e-01 -825 1.995262e+08 -3.54692e-01 -826 2.013724e+08 -3.56857e-01 -827 2.032357e+08 -3.59010e-01 -828 2.051162e+08 -3.61151e-01 -829 2.070141e+08 -3.63279e-01 -830 2.089296e+08 -3.65394e-01 -831 2.108628e+08 -3.67498e-01 -832 2.128139e+08 -3.69590e-01 -833 2.147830e+08 -3.71671e-01 -834 2.167704e+08 -3.73741e-01 -835 2.187762e+08 -3.75801e-01 -836 2.208005e+08 -3.77852e-01 -837 2.228435e+08 -3.79894e-01 -838 2.249055e+08 -3.81928e-01 -839 2.269865e+08 -3.83955e-01 -840 2.290868e+08 -3.85975e-01 -841 2.312065e+08 -3.87990e-01 -842 2.333458e+08 -3.90001e-01 -843 2.355049e+08 -3.92007e-01 -844 2.376840e+08 -3.94011e-01 -845 2.398833e+08 -3.96013e-01 -846 2.421029e+08 -3.98014e-01 -847 2.443431e+08 -4.00015e-01 -848 2.466039e+08 -4.02015e-01 -849 2.488857e+08 -4.04017e-01 -850 2.511886e+08 -4.06021e-01 -851 2.535129e+08 -4.08027e-01 -852 2.558586e+08 -4.10036e-01 -853 2.582260e+08 -4.12047e-01 -854 2.606154e+08 -4.14062e-01 -855 2.630268e+08 -4.16079e-01 -856 2.654606e+08 -4.18100e-01 -857 2.679168e+08 -4.20123e-01 -858 2.703958e+08 -4.22148e-01 -859 2.728978e+08 -4.24175e-01 -860 2.754229e+08 -4.26203e-01 -861 2.779713e+08 -4.28230e-01 -862 2.805434e+08 -4.30257e-01 -863 2.831392e+08 -4.32281e-01 -864 2.857591e+08 -4.34301e-01 -865 2.884032e+08 -4.36316e-01 -866 2.910717e+08 -4.38324e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -867 2.937650e+08 -4.40325e-01 -868 2.964831e+08 -4.42315e-01 -869 2.992265e+08 -4.44295e-01 -870 3.019952e+08 -4.46262e-01 -871 3.047895e+08 -4.48215e-01 -872 3.076097e+08 -4.50152e-01 -873 3.104560e+08 -4.52074e-01 -874 3.133286e+08 -4.53978e-01 -875 3.162278e+08 -4.55864e-01 -876 3.191538e+08 -4.57732e-01 -877 3.221069e+08 -4.59581e-01 -878 3.250873e+08 -4.61413e-01 -879 3.280953e+08 -4.63228e-01 -880 3.311311e+08 -4.65026e-01 -881 3.341950e+08 -4.66809e-01 -882 3.372873e+08 -4.68579e-01 -883 3.404082e+08 -4.70339e-01 -884 3.435579e+08 -4.72090e-01 -885 3.467369e+08 -4.73835e-01 -886 3.499452e+08 -4.75578e-01 -887 3.531832e+08 -4.77322e-01 -888 3.564511e+08 -4.79070e-01 -889 3.597493e+08 -4.80825e-01 -890 3.630781e+08 -4.82591e-01 -891 3.664376e+08 -4.84372e-01 -892 3.698282e+08 -4.86170e-01 -893 3.732502e+08 -4.87988e-01 -894 3.767038e+08 -4.89829e-01 -895 3.801894e+08 -4.91694e-01 -896 3.837072e+08 -4.93586e-01 -897 3.872576e+08 -4.95504e-01 -898 3.908409e+08 -4.97448e-01 -899 3.944573e+08 -4.99418e-01 -900 3.981072e+08 -5.01413e-01 -901 4.017908e+08 -5.03430e-01 -902 4.055085e+08 -5.05466e-01 -903 4.092607e+08 -5.07519e-01 -904 4.130475e+08 -5.09583e-01 -905 4.168694e+08 -5.11655e-01 -906 4.207266e+08 -5.13731e-01 -907 4.246196e+08 -5.15805e-01 -908 4.285485e+08 -5.17873e-01 -909 4.325138e+08 -5.19931e-01 -910 4.365158e+08 -5.21976e-01 -911 4.405549e+08 -5.24005e-01 -912 4.446313e+08 -5.26015e-01 -913 4.487454e+08 -5.28007e-01 -914 4.528976e+08 -5.29981e-01 -915 4.570882e+08 -5.31937e-01 -916 4.613176e+08 -5.33881e-01 -917 4.655861e+08 -5.35815e-01 -918 4.698941e+08 -5.37746e-01 -919 4.742420e+08 -5.39679e-01 -920 4.786301e+08 -5.41623e-01 -921 4.830588e+08 -5.43585e-01 -922 4.875285e+08 -5.45574e-01 -923 4.920395e+08 -5.47597e-01 -924 4.965923e+08 -5.49661e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -925 5.011872e+08 -5.51774e-01 -926 5.058247e+08 -5.53939e-01 -927 5.105050e+08 -5.56160e-01 -928 5.152286e+08 -5.58439e-01 -929 5.199960e+08 -5.60775e-01 -930 5.248075e+08 -5.63165e-01 -931 5.296634e+08 -5.65604e-01 -932 5.345644e+08 -5.68084e-01 -933 5.395106e+08 -5.70597e-01 -934 5.445027e+08 -5.73134e-01 -935 5.495409e+08 -5.75684e-01 -936 5.546257e+08 -5.78237e-01 -937 5.597576e+08 -5.80784e-01 -938 5.649370e+08 -5.83316e-01 -939 5.701643e+08 -5.85828e-01 -940 5.754399e+08 -5.88317e-01 -941 5.807644e+08 -5.90784e-01 -942 5.861382e+08 -5.93231e-01 -943 5.915616e+08 -5.95666e-01 -944 5.970353e+08 -5.98098e-01 -945 6.025596e+08 -6.00542e-01 -946 6.081350e+08 -6.03011e-01 -947 6.137620e+08 -6.05521e-01 -948 6.194411e+08 -6.08087e-01 -949 6.251727e+08 -6.10724e-01 -950 6.309573e+08 -6.13442e-01 -951 6.367955e+08 -6.16249e-01 -952 6.426877e+08 -6.19147e-01 -953 6.486344e+08 -6.22136e-01 -954 6.546362e+08 -6.25208e-01 -955 6.606934e+08 -6.28352e-01 -956 6.668068e+08 -6.31550e-01 -957 6.729767e+08 -6.34786e-01 -958 6.792036e+08 -6.38039e-01 -959 6.854882e+08 -6.41291e-01 -960 6.918310e+08 -6.44526e-01 -961 6.982324e+08 -6.47733e-01 -962 7.046931e+08 -6.50907e-01 -963 7.112135e+08 -6.54051e-01 -964 7.177943e+08 -6.57172e-01 -965 7.244360e+08 -6.60288e-01 -966 7.311391e+08 -6.63421e-01 -967 7.379042e+08 -6.66596e-01 -968 7.447320e+08 -6.69839e-01 -969 7.516229e+08 -6.73177e-01 -970 7.585776e+08 -6.76627e-01 -971 7.655966e+08 -6.80203e-01 -972 7.726806e+08 -6.83907e-01 -973 7.798301e+08 -6.87733e-01 -974 7.870458e+08 -6.91662e-01 -975 7.943282e+08 -6.95670e-01 -976 8.016781e+08 -6.99725e-01 -977 8.090959e+08 -7.03796e-01 -978 8.165824e+08 -7.07852e-01 -979 8.241381e+08 -7.11871e-01 -980 8.317638e+08 -7.15842e-01 -981 8.394600e+08 -7.19767e-01 -982 8.472274e+08 -7.23661e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -983 8.550667e+08 -7.27554e-01 -984 8.629785e+08 -7.31482e-01 -985 8.709636e+08 -7.35488e-01 -986 8.790225e+08 -7.39610e-01 -987 8.871560e+08 -7.43879e-01 -988 8.953648e+08 -7.48313e-01 -989 9.036495e+08 -7.52911e-01 -990 9.120108e+08 -7.57654e-01 -991 9.204496e+08 -7.62506e-01 -992 9.289664e+08 -7.67420e-01 -993 9.375620e+08 -7.72348e-01 -994 9.462372e+08 -7.77244e-01 -995 9.549926e+08 -7.82079e-01 -996 9.638290e+08 -7.86844e-01 -997 9.727472e+08 -7.91551e-01 -998 9.817479e+08 -7.96240e-01 -999 9.908319e+08 -8.00964e-01 -1000 1.000000e+09 -8.05783e-01 - -CPU time since last call: 0.613 seconds. - -Total CPU time: 0.613 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4853.253906 MB. -Total ngspice program size = 7.541016 MB. -Resident set size = 1.246094 MB. -Shared ngspice pages = 534.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 801.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec deleted file mode 100644 index 999d407..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -0.0 0.0056 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec deleted file mode 100644 index 51361db..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference deleted file mode 100644 index a06d7b6..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 10000.000000000000 -82.399185518064769 - 10115.911122238298 -82.399688119579253 - 10233.165783302449 -82.400202401746498 - 10351.779556301763 -82.400728611630640 - 10471.768194855204 -82.401267010422515 - 10593.147635183701 -82.401817911005523 - 10715.933998226712 -82.402381581361738 - 10840.143591783310 -82.402958306890852 - 10965.792912678098 -82.403548413084280 - 11092.898648952229 -82.404152178316949 - 11221.477682079802 -82.404769952488280 - 11351.547089209991 -82.405402023679244 - 11483.124145435111 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-119.13447815256364 - 81079098.067316949 -119.30146994129532 - 82018894.992022112 -119.47661263761616 - 82969585.208349153 -119.66066562174369 - 83931294.981663734 -119.85446731252325 - 84904152.040887550 -120.05894045500949 - 85888285.595462590 -120.27509521641468 - 86883826.352511927 -120.50402934626248 - 87890906.534199640 -120.74692170885987 - 88909659.895291671 -121.00501577139201 - 89940221.740920529 -121.27958550568434 - 90982728.944555670 -121.57187413239868 - 92037319.966182306 -121.88298667444496 - 93104134.870690852 -122.21371038718507 - 94183315.346479610 -122.56421944034068 - 95275004.724272996 -122.93359921227656 - 96379347.996157959 -123.31909404436414 - 97496491.834840968 -123.71495354629452 - 98626584.613128304 -124.11074512622889 - 99769776.423632115 -124.48909154810060 - 100926219.09870484 -124.82312812280023 - 102096066.23060475 -125.07476291415087 - 103279473.19189525 -125.19604126937946 - 104476597.15608053 -125.13652593341034 - 105687597.11848050 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-96.631109895202940 - 140977287.16289678 -94.535556463635089 - 142611370.71941298 -92.063123332734136 - 144264395.12181589 -88.992284387220877 - 145936579.91557577 -84.932440968472562 - 147628147.19093910 -79.925602568710644 - 149339321.61242533 -80.164197490118241 - 151070330.44866556 -84.623318295351737 - 152821403.60258707 -87.979602657241344 - 154592773.64194787 -90.401862597040775 - 156384675.83022478 -92.257995820156253 - 158197348.15786016 -93.752951230195848 - 160031031.37387016 -95.003110523729291 - 161885969.01781991 -96.079322318769229 - 163762407.45216891 -97.027464007655880 - 165660595.89499152 -97.878759885611132 - 167580786.45307687 -98.655326748259114 - 169523234.15541214 -99.373346589560256 - 171488196.98705408 -100.04498474052576 - 173475935.92339325 -100.67960468608885 - 175486714.96481520 -101.28456947101631 - 177520801.17176360 -101.86579064393051 - 179578464.70020968 -102.42811730932267 - 181659978.83753285 -102.97562050027084 - 183765620.03881723 -103.51180872456655 - 185895667.96356884 -104.03979598989316 - 188050405.51285833 -104.56243918872454 - 190230118.86689457 -105.08245373472118 - 192435097.52303323 -105.60251609518774 - 194665634.33422634 -106.12535883414128 - 196922025.54791734 -106.65386262615208 - 199204570.84538713 -107.19114821035360 - 201513573.38155586 -107.74066945674929 - 203849339.82524642 -108.30630719969234 - 206212180.39991444 -108.89245541018715 - 208602408.92485049 -109.50408105730182 - 211020342.85685965 -110.14671372377893 - 213466303.33242455 -110.82626667000510 - 215940615.21035677 -111.54847644237168 - 218443607.11494285 -112.31750659026999 - 220975611.47959033 -113.13275622815451 - 223536964.59097967 -113.98197449592972 - 226128006.63372794 -114.82749914557033 - 228749081.73557040 -115.58301310607402 - 231400538.01306540 -116.08985503761532 - 234082727.61782944 -116.13697892529737 - 236796006.78330785 -115.57793055293357 - 239540735.87208793 -114.45645653898602 - 242317279.42376006 -112.96007170325817 - 245126006.20333397 -111.27209975027841 - 247967289.25021601 -109.49902146990476 - 250841505.92775410 -107.69074052836356 - 253749037.97335717 -106.27845817141332 - 256690271.54919520 -108.01739532101206 - 259665597.29348725 -104.90522250056472 - 262675410.37238383 -102.68694718053796 - 265720110.53245068 -100.81936205102592 - 268800102.15376073 -99.041499447488860 - 271915794.30360186 -97.261541176876960 - 275067600.79080677 -95.423244154747380 - 278255940.22071260 -93.471802947292119 - 281481236.05075812 -91.335560688211700 - 284743916.64672476 -88.902681818152701 - 288044415.33962977 -85.973091504781522 - 291383170.48327887 -82.135268440664333 - 294760625.51248586 -76.490453650630428 - 298177229.00196731 -72.019211074688826 - 301633434.72591972 -78.087150384459022 - 305129701.71828711 -82.663383790962186 - 308666494.33372742 -85.778192597848161 - 312244282.30928582 -88.151363956563614 - 315863540.82678193 -90.105662022864564 - 319524750.57592136 -91.803706061159261 - 323228397.81813806 -93.337887029061918 - 326974974.45117682 -94.766273417654105 - 330764978.07442427 -96.129119789467680 - 334598912.05499750 -97.457540928266496 - 338477285.59459829 -98.778738867535878 - 342400613.79714257 -100.11968854243449 - 346369417.73717344 -101.51019391714591 - 350384224.52906758 -102.98559429603804 - 354445567.39704359 -104.58815385952194 - 358553985.74598169 -106.36141820918839 - 362710025.23306483 -108.31172301191376 - 366914237.84024942 -110.23704856497977 - 371167181.94757670 -111.27422788209167 - 375469422.40733367 -110.19604390358586 - 379821530.61907363 -107.57076607212915 - 384224084.60550606 -113.94276155665162 - 388677669.08926678 -108.33508179840372 - 393182875.57057703 -103.64286797556419 - 397740302.40580368 -100.81739999141888 - 402350554.88692933 -98.458912030204019 - 407014245.32194388 -96.278332772971936 - 411731993.11616790 -94.153893700410890 - 416504424.85451853 -92.004251872212819 - 421332174.38472891 -89.750500668839607 - 426215882.90153247 -87.289064233420561 - 431156199.03182286 -84.448346387285881 - 436153778.92080057 -80.882105400489550 - 441209286.31911898 -75.736746944753818 - 446323392.67103976 -68.193777262370162 - 451496777.20361018 -73.739421600591612 - 456730127.01687467 -79.646038065198070 - 462024137.17513132 -83.559202775445698 - 467379510.79924637 -86.616614854882300 - 472796959.16003907 -89.275889035603697 - 478277201.77274853 -91.774594955796559 - 483820966.49259573 -94.290357485897090 - 489428989.61145318 -97.035889288516955 - 495102015.95563513 -100.43073997578630 - 500840798.98482126 -105.95131950091834 - 506646100.89212686 -117.47016854958333 - 512518692.70533329 -98.205826336504401 - 518459354.38929129 -104.15719751916635 - 524468874.94951189 -106.12110304075215 - 530548052.53695744 -102.62659843158022 - 536697694.55404758 -99.158770640937178 - 542918617.76189423 -96.237523167681317 - 549211648.38877892 -93.632513913229502 - 555577622.23988783 -91.163371575392134 - 562017384.80831885 -88.695729156285154 - 568531791.38737535 -86.099816547440682 - 575121707.18416142 -83.197503988609952 - 581788007.43449354 -79.647510337806622 - 588531577.51914501 -74.572457502727559 - 595353313.08143699 -66.328033769506888 - 602254120.14619279 -72.649928929361366 - 609234915.24007118 -79.500431340752385 - 616296625.51329422 -84.484915162404661 - 623440188.86278641 -89.362631560192824 - 630666554.05674052 -96.731126779303324 - 637976680.86062825 -91.133263643715608 - 645371540.16467023 -89.416776092956582 - 652852114.11278474 -95.670559220653914 - 660419396.23303056 -101.54815569898565 - 668074391.56956148 -103.49626841479986 - 675818116.81611097 -99.296024725563768 - 683651600.45102382 -95.406841217950969 - 691575882.87385249 -92.246310232669742 - 699592016.54353750 -89.436056156451542 - 707701066.11818898 -86.720692695252879 - 715904108.59648883 -83.899067385157394 - 724202233.46073151 -80.718307472944502 - 732596542.82152307 -76.639805171490394 - 741088151.56415701 -69.954281422148057 - 749678187.49668765 -69.833445694321384 - 758367791.49971902 -82.320837338910565 - 767158117.67793024 -77.387322054667820 - 776050333.51335716 -80.059720464233891 - 785045620.02045095 -86.325637585993391 - 794145171.90293396 -92.003931336194540 - 803350197.71247351 -98.722664790432688 - 812661920.00919449 -102.51247619225539 - 822081575.52405405 -96.972630481077445 - 831610415.32309616 -92.640989499902147 - 841249704.97361183 -89.348941879061698 - 851000724.71222460 -86.478458951298279 - 860864769.61492443 -83.736464497099874 - 870843149.76907241 -80.995271233133522 - 880937190.44739914 -78.437860946152924 - 891148232.28402019 -71.136126123316814 - 901477631.45249176 -61.314334882196960 - 911926759.84592986 -72.813792475513353 - 922497005.25921738 -80.016555213214176 - 933189771.57332385 -86.255922414113329 - 944006478.94176030 -93.352434328625051 - 954948563.97919667 -102.44785510023276 - 966017479.95226455 -96.946204289195521 - 977214696.97257245 -91.788272085518727 - 988541702.19195735 -88.499405831752568 - 1000000000.0000000 -86.261833193206883 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference deleted file mode 100644 index a4271f9..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 3.09101929 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference deleted file mode 100644 index 2d7e76c..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:11:04 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -0 1.000000e+04 -8.24070e+01 -1 1.011579e+04 -8.24073e+01 -2 1.023293e+04 -8.24077e+01 -3 1.035142e+04 -8.24080e+01 -4 1.047129e+04 -8.24083e+01 -5 1.059254e+04 -8.24087e+01 -6 1.071519e+04 -8.24091e+01 -7 1.083927e+04 -8.24094e+01 -8 1.096478e+04 -8.24098e+01 -9 1.109175e+04 -8.24102e+01 -10 1.122018e+04 -8.24106e+01 -11 1.135011e+04 -8.24110e+01 -12 1.148154e+04 -8.24115e+01 -13 1.161449e+04 -8.24119e+01 -14 1.174898e+04 -8.24123e+01 -15 1.188502e+04 -8.24128e+01 -16 1.202264e+04 -8.24132e+01 -17 1.216186e+04 -8.24137e+01 -18 1.230269e+04 -8.24142e+01 -19 1.244515e+04 -8.24147e+01 -20 1.258925e+04 -8.24152e+01 -21 1.273503e+04 -8.24157e+01 -22 1.288250e+04 -8.24162e+01 -23 1.303167e+04 -8.24168e+01 -24 1.318257e+04 -8.24173e+01 -25 1.333521e+04 -8.24179e+01 -26 1.348963e+04 -8.24185e+01 -27 1.364583e+04 -8.24191e+01 -28 1.380384e+04 -8.24197e+01 -29 1.396368e+04 -8.24203e+01 -30 1.412538e+04 -8.24209e+01 -31 1.428894e+04 -8.24216e+01 -32 1.445440e+04 -8.24223e+01 -33 1.462177e+04 -8.24229e+01 -34 1.479108e+04 -8.24236e+01 -35 1.496236e+04 -8.24243e+01 -36 1.513561e+04 -8.24251e+01 -37 1.531087e+04 -8.24258e+01 -38 1.548817e+04 -8.24266e+01 -39 1.566751e+04 -8.24274e+01 -40 1.584893e+04 -8.24282e+01 -41 1.603245e+04 -8.24290e+01 -42 1.621810e+04 -8.24298e+01 -43 1.640590e+04 -8.24307e+01 -44 1.659587e+04 -8.24316e+01 -45 1.678804e+04 -8.24324e+01 -46 1.698244e+04 -8.24334e+01 -47 1.717908e+04 -8.24343e+01 -48 1.737801e+04 -8.24353e+01 -49 1.757924e+04 -8.24362e+01 -50 1.778279e+04 -8.24372e+01 -51 1.798871e+04 -8.24383e+01 -52 1.819701e+04 -8.24393e+01 -53 1.840772e+04 -8.24404e+01 -54 1.862087e+04 -8.24415e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -55 1.883649e+04 -8.24426e+01 -56 1.905461e+04 -8.24438e+01 -57 1.927525e+04 -8.24450e+01 -58 1.949845e+04 -8.24462e+01 -59 1.972423e+04 -8.24474e+01 -60 1.995262e+04 -8.24486e+01 -61 2.018366e+04 -8.24499e+01 -62 2.041738e+04 -8.24513e+01 -63 2.065380e+04 -8.24526e+01 -64 2.089296e+04 -8.24540e+01 -65 2.113489e+04 -8.24554e+01 -66 2.137962e+04 -8.24568e+01 -67 2.162719e+04 -8.24583e+01 -68 2.187762e+04 -8.24598e+01 -69 2.213095e+04 -8.24614e+01 -70 2.238721e+04 -8.24630e+01 -71 2.264644e+04 -8.24646e+01 -72 2.290868e+04 -8.24662e+01 -73 2.317395e+04 -8.24679e+01 -74 2.344229e+04 -8.24697e+01 -75 2.371374e+04 -8.24714e+01 -76 2.398833e+04 -8.24732e+01 -77 2.426610e+04 -8.24751e+01 -78 2.454709e+04 -8.24770e+01 -79 2.483133e+04 -8.24789e+01 -80 2.511886e+04 -8.24809e+01 -81 2.540973e+04 -8.24829e+01 -82 2.570396e+04 -8.24850e+01 -83 2.600160e+04 -8.24871e+01 -84 2.630268e+04 -8.24893e+01 -85 2.660725e+04 -8.24915e+01 -86 2.691535e+04 -8.24938e+01 -87 2.722701e+04 -8.24961e+01 -88 2.754229e+04 -8.24985e+01 -89 2.786121e+04 -8.25009e+01 -90 2.818383e+04 -8.25034e+01 -91 2.851018e+04 -8.25059e+01 -92 2.884032e+04 -8.25085e+01 -93 2.917427e+04 -8.25112e+01 -94 2.951209e+04 -8.25139e+01 -95 2.985383e+04 -8.25167e+01 -96 3.019952e+04 -8.25195e+01 -97 3.054921e+04 -8.25224e+01 -98 3.090295e+04 -8.25254e+01 -99 3.126079e+04 -8.25285e+01 -100 3.162278e+04 -8.25316e+01 -101 3.198895e+04 -8.25347e+01 -102 3.235937e+04 -8.25380e+01 -103 3.273407e+04 -8.25413e+01 -104 3.311311e+04 -8.25447e+01 -105 3.349654e+04 -8.25482e+01 -106 3.388442e+04 -8.25517e+01 -107 3.427678e+04 -8.25554e+01 -108 3.467369e+04 -8.25591e+01 -109 3.507519e+04 -8.25629e+01 -110 3.548134e+04 -8.25667e+01 -111 3.589219e+04 -8.25707e+01 -112 3.630781e+04 -8.25748e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -113 3.672823e+04 -8.25789e+01 -114 3.715352e+04 -8.25831e+01 -115 3.758374e+04 -8.25875e+01 -116 3.801894e+04 -8.25919e+01 -117 3.845918e+04 -8.25964e+01 -118 3.890451e+04 -8.26011e+01 -119 3.935501e+04 -8.26058e+01 -120 3.981072e+04 -8.26106e+01 -121 4.027170e+04 -8.26156e+01 -122 4.073803e+04 -8.26206e+01 -123 4.120975e+04 -8.26258e+01 -124 4.168694e+04 -8.26311e+01 -125 4.216965e+04 -8.26365e+01 -126 4.265795e+04 -8.26420e+01 -127 4.315191e+04 -8.26476e+01 -128 4.365158e+04 -8.26534e+01 -129 4.415704e+04 -8.26593e+01 -130 4.466836e+04 -8.26653e+01 -131 4.518559e+04 -8.26714e+01 -132 4.570882e+04 -8.26777e+01 -133 4.623810e+04 -8.26841e+01 -134 4.677351e+04 -8.26907e+01 -135 4.731513e+04 -8.26974e+01 -136 4.786301e+04 -8.27042e+01 -137 4.841724e+04 -8.27112e+01 -138 4.897788e+04 -8.27183e+01 -139 4.954502e+04 -8.27256e+01 -140 5.011872e+04 -8.27331e+01 -141 5.069907e+04 -8.27407e+01 -142 5.128614e+04 -8.27485e+01 -143 5.188000e+04 -8.27564e+01 -144 5.248075e+04 -8.27645e+01 -145 5.308844e+04 -8.27728e+01 -146 5.370318e+04 -8.27813e+01 -147 5.432503e+04 -8.27899e+01 -148 5.495409e+04 -8.27988e+01 -149 5.559043e+04 -8.28078e+01 -150 5.623413e+04 -8.28170e+01 -151 5.688529e+04 -8.28264e+01 -152 5.754399e+04 -8.28360e+01 -153 5.821032e+04 -8.28458e+01 -154 5.888437e+04 -8.28558e+01 -155 5.956621e+04 -8.28660e+01 -156 6.025596e+04 -8.28764e+01 -157 6.095369e+04 -8.28871e+01 -158 6.165950e+04 -8.28979e+01 -159 6.237348e+04 -8.29090e+01 -160 6.309573e+04 -8.29203e+01 -161 6.382635e+04 -8.29319e+01 -162 6.456542e+04 -8.29437e+01 -163 6.531306e+04 -8.29557e+01 -164 6.606934e+04 -8.29680e+01 -165 6.683439e+04 -8.29805e+01 -166 6.760830e+04 -8.29933e+01 -167 6.839116e+04 -8.30064e+01 -168 6.918310e+04 -8.30197e+01 -169 6.998420e+04 -8.30332e+01 -170 7.079458e+04 -8.30471e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -171 7.161434e+04 -8.30612e+01 -172 7.244360e+04 -8.30756e+01 -173 7.328245e+04 -8.30903e+01 -174 7.413102e+04 -8.31053e+01 -175 7.498942e+04 -8.31205e+01 -176 7.585776e+04 -8.31361e+01 -177 7.673615e+04 -8.31520e+01 -178 7.762471e+04 -8.31682e+01 -179 7.852356e+04 -8.31847e+01 -180 7.943282e+04 -8.32015e+01 -181 8.035261e+04 -8.32186e+01 -182 8.128305e+04 -8.32361e+01 -183 8.222426e+04 -8.32539e+01 -184 8.317638e+04 -8.32721e+01 -185 8.413951e+04 -8.32906e+01 -186 8.511380e+04 -8.33094e+01 -187 8.609938e+04 -8.33286e+01 -188 8.709636e+04 -8.33482e+01 -189 8.810489e+04 -8.33681e+01 -190 8.912509e+04 -8.33884e+01 -191 9.015711e+04 -8.34091e+01 -192 9.120108e+04 -8.34301e+01 -193 9.225714e+04 -8.34515e+01 -194 9.332543e+04 -8.34734e+01 -195 9.440609e+04 -8.34956e+01 -196 9.549926e+04 -8.35182e+01 -197 9.660509e+04 -8.35412e+01 -198 9.772372e+04 -8.35646e+01 -199 9.885531e+04 -8.35885e+01 -200 1.000000e+05 -8.36127e+01 -201 1.011579e+05 -8.36374e+01 -202 1.023293e+05 -8.36626e+01 -203 1.035142e+05 -8.36881e+01 -204 1.047129e+05 -8.37141e+01 -205 1.059254e+05 -8.37406e+01 -206 1.071519e+05 -8.37674e+01 -207 1.083927e+05 -8.37949e+01 -208 1.096478e+05 -8.38227e+01 -209 1.109175e+05 -8.38509e+01 -210 1.122018e+05 -8.38797e+01 -211 1.135011e+05 -8.39089e+01 -212 1.148154e+05 -8.39386e+01 -213 1.161449e+05 -8.39688e+01 -214 1.174898e+05 -8.39994e+01 -215 1.188502e+05 -8.40306e+01 -216 1.202264e+05 -8.40622e+01 -217 1.216186e+05 -8.40944e+01 -218 1.230269e+05 -8.41270e+01 -219 1.244515e+05 -8.41602e+01 -220 1.258925e+05 -8.41938e+01 -221 1.273503e+05 -8.42280e+01 -222 1.288250e+05 -8.42627e+01 -223 1.303167e+05 -8.42979e+01 -224 1.318257e+05 -8.43337e+01 -225 1.333521e+05 -8.43699e+01 -226 1.348963e+05 -8.44068e+01 -227 1.364583e+05 -8.44441e+01 -228 1.380384e+05 -8.44820e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -229 1.396368e+05 -8.45204e+01 -230 1.412538e+05 -8.45594e+01 -231 1.428894e+05 -8.45989e+01 -232 1.445440e+05 -8.46390e+01 -233 1.462177e+05 -8.46796e+01 -234 1.479108e+05 -8.47208e+01 -235 1.496236e+05 -8.47625e+01 -236 1.513561e+05 -8.48048e+01 -237 1.531087e+05 -8.48477e+01 -238 1.548817e+05 -8.48911e+01 -239 1.566751e+05 -8.49351e+01 -240 1.584893e+05 -8.49796e+01 -241 1.603245e+05 -8.50248e+01 -242 1.621810e+05 -8.50705e+01 -243 1.640590e+05 -8.51167e+01 -244 1.659587e+05 -8.51636e+01 -245 1.678804e+05 -8.52110e+01 -246 1.698244e+05 -8.52589e+01 -247 1.717908e+05 -8.53075e+01 -248 1.737801e+05 -8.53566e+01 -249 1.757924e+05 -8.54063e+01 -250 1.778279e+05 -8.54565e+01 -251 1.798871e+05 -8.55074e+01 -252 1.819701e+05 -8.55588e+01 -253 1.840772e+05 -8.56108e+01 -254 1.862087e+05 -8.56633e+01 -255 1.883649e+05 -8.57164e+01 -256 1.905461e+05 -8.57701e+01 -257 1.927525e+05 -8.58244e+01 -258 1.949845e+05 -8.58792e+01 -259 1.972423e+05 -8.59346e+01 -260 1.995262e+05 -8.59906e+01 -261 2.018366e+05 -8.60471e+01 -262 2.041738e+05 -8.61042e+01 -263 2.065380e+05 -8.61619e+01 -264 2.089296e+05 -8.62201e+01 -265 2.113489e+05 -8.62788e+01 -266 2.137962e+05 -8.63381e+01 -267 2.162719e+05 -8.63980e+01 -268 2.187762e+05 -8.64584e+01 -269 2.213095e+05 -8.65194e+01 -270 2.238721e+05 -8.65809e+01 -271 2.264644e+05 -8.66430e+01 -272 2.290868e+05 -8.67055e+01 -273 2.317395e+05 -8.67686e+01 -274 2.344229e+05 -8.68322e+01 -275 2.371374e+05 -8.68964e+01 -276 2.398833e+05 -8.69611e+01 -277 2.426610e+05 -8.70263e+01 -278 2.454709e+05 -8.70920e+01 -279 2.483133e+05 -8.71582e+01 -280 2.511886e+05 -8.72250e+01 -281 2.540973e+05 -8.72922e+01 -282 2.570396e+05 -8.73599e+01 -283 2.600160e+05 -8.74281e+01 -284 2.630268e+05 -8.74968e+01 -285 2.660725e+05 -8.75660e+01 -286 2.691535e+05 -8.76356e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -287 2.722701e+05 -8.77058e+01 -288 2.754229e+05 -8.77764e+01 -289 2.786121e+05 -8.78475e+01 -290 2.818383e+05 -8.79190e+01 -291 2.851018e+05 -8.79910e+01 -292 2.884032e+05 -8.80635e+01 -293 2.917427e+05 -8.81364e+01 -294 2.951209e+05 -8.82097e+01 -295 2.985383e+05 -8.82835e+01 -296 3.019952e+05 -8.83577e+01 -297 3.054921e+05 -8.84323e+01 -298 3.090295e+05 -8.85074e+01 -299 3.126079e+05 -8.85829e+01 -300 3.162278e+05 -8.86587e+01 -301 3.198895e+05 -8.87350e+01 -302 3.235937e+05 -8.88117e+01 -303 3.273407e+05 -8.88888e+01 -304 3.311311e+05 -8.89662e+01 -305 3.349654e+05 -8.90441e+01 -306 3.388442e+05 -8.91225e+01 -307 3.427678e+05 -8.92011e+01 -308 3.467369e+05 -8.92801e+01 -309 3.507519e+05 -8.93594e+01 -310 3.548134e+05 -8.94391e+01 -311 3.589219e+05 -8.95192e+01 -312 3.630781e+05 -8.95996e+01 -313 3.672823e+05 -8.96803e+01 -314 3.715352e+05 -8.97614e+01 -315 3.758374e+05 -8.98427e+01 -316 3.801894e+05 -8.99245e+01 -317 3.845918e+05 -9.00065e+01 -318 3.890451e+05 -9.00889e+01 -319 3.935501e+05 -9.01716e+01 -320 3.981072e+05 -9.02546e+01 -321 4.027170e+05 -9.03379e+01 -322 4.073803e+05 -9.04215e+01 -323 4.120975e+05 -9.05054e+01 -324 4.168694e+05 -9.05895e+01 -325 4.216965e+05 -9.06740e+01 -326 4.265795e+05 -9.07587e+01 -327 4.315191e+05 -9.08436e+01 -328 4.365158e+05 -9.09289e+01 -329 4.415704e+05 -9.10144e+01 -330 4.466836e+05 -9.11002e+01 -331 4.518559e+05 -9.11862e+01 -332 4.570882e+05 -9.12724e+01 -333 4.623810e+05 -9.13589e+01 -334 4.677351e+05 -9.14456e+01 -335 4.731513e+05 -9.15326e+01 -336 4.786301e+05 -9.16198e+01 -337 4.841724e+05 -9.17071e+01 -338 4.897788e+05 -9.17948e+01 -339 4.954502e+05 -9.18827e+01 -340 5.011872e+05 -9.19707e+01 -341 5.069907e+05 -9.20589e+01 -342 5.128614e+05 -9.21473e+01 -343 5.188000e+05 -9.22360e+01 -344 5.248075e+05 -9.23248e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -345 5.308844e+05 -9.24138e+01 -346 5.370318e+05 -9.25029e+01 -347 5.432503e+05 -9.25923e+01 -348 5.495409e+05 -9.26819e+01 -349 5.559043e+05 -9.27716e+01 -350 5.623413e+05 -9.28614e+01 -351 5.688529e+05 -9.29515e+01 -352 5.754399e+05 -9.30416e+01 -353 5.821032e+05 -9.31319e+01 -354 5.888437e+05 -9.32224e+01 -355 5.956621e+05 -9.33130e+01 -356 6.025596e+05 -9.34038e+01 -357 6.095369e+05 -9.34947e+01 -358 6.165950e+05 -9.35857e+01 -359 6.237348e+05 -9.36768e+01 -360 6.309573e+05 -9.37681e+01 -361 6.382635e+05 -9.38594e+01 -362 6.456542e+05 -9.39509e+01 -363 6.531306e+05 -9.40426e+01 -364 6.606934e+05 -9.41343e+01 -365 6.683439e+05 -9.42261e+01 -366 6.760830e+05 -9.43181e+01 -367 6.839116e+05 -9.44100e+01 -368 6.918310e+05 -9.45022e+01 -369 6.998420e+05 -9.45944e+01 -370 7.079458e+05 -9.46867e+01 -371 7.161434e+05 -9.47790e+01 -372 7.244360e+05 -9.48716e+01 -373 7.328245e+05 -9.49640e+01 -374 7.413102e+05 -9.50567e+01 -375 7.498942e+05 -9.51494e+01 -376 7.585776e+05 -9.52421e+01 -377 7.673615e+05 -9.53348e+01 -378 7.762471e+05 -9.54277e+01 -379 7.852356e+05 -9.55207e+01 -380 7.943282e+05 -9.56137e+01 -381 8.035261e+05 -9.57067e+01 -382 8.128305e+05 -9.57996e+01 -383 8.222426e+05 -9.58929e+01 -384 8.317638e+05 -9.59860e+01 -385 8.413951e+05 -9.60791e+01 -386 8.511380e+05 -9.61724e+01 -387 8.609938e+05 -9.62656e+01 -388 8.709636e+05 -9.63589e+01 -389 8.810489e+05 -9.64522e+01 -390 8.912509e+05 -9.65456e+01 -391 9.015711e+05 -9.66388e+01 -392 9.120108e+05 -9.67322e+01 -393 9.225714e+05 -9.68255e+01 -394 9.332543e+05 -9.69189e+01 -395 9.440609e+05 -9.70122e+01 -396 9.549926e+05 -9.71056e+01 -397 9.660509e+05 -9.71990e+01 -398 9.772372e+05 -9.72923e+01 -399 9.885531e+05 -9.73856e+01 -400 1.000000e+06 -9.74790e+01 -401 1.011579e+06 -9.75723e+01 -402 1.023293e+06 -9.76657e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -403 1.035142e+06 -9.77589e+01 -404 1.047129e+06 -9.78522e+01 -405 1.059254e+06 -9.79454e+01 -406 1.071519e+06 -9.80386e+01 -407 1.083927e+06 -9.81317e+01 -408 1.096478e+06 -9.82249e+01 -409 1.109175e+06 -9.83180e+01 -410 1.122018e+06 -9.84110e+01 -411 1.135011e+06 -9.85041e+01 -412 1.148154e+06 -9.85969e+01 -413 1.161449e+06 -9.86899e+01 -414 1.174898e+06 -9.87827e+01 -415 1.188502e+06 -9.88755e+01 -416 1.202264e+06 -9.89682e+01 -417 1.216186e+06 -9.90608e+01 -418 1.230269e+06 -9.91533e+01 -419 1.244515e+06 -9.92459e+01 -420 1.258925e+06 -9.93383e+01 -421 1.273503e+06 -9.94306e+01 -422 1.288250e+06 -9.95229e+01 -423 1.303167e+06 -9.96151e+01 -424 1.318257e+06 -9.97071e+01 -425 1.333521e+06 -9.97991e+01 -426 1.348963e+06 -9.98910e+01 -427 1.364583e+06 -9.99828e+01 -428 1.380384e+06 -1.00075e+02 -429 1.396368e+06 -1.00166e+02 -430 1.412538e+06 -1.00257e+02 -431 1.428894e+06 -1.00349e+02 -432 1.445440e+06 -1.00440e+02 -433 1.462177e+06 -1.00531e+02 -434 1.479108e+06 -1.00622e+02 -435 1.496236e+06 -1.00713e+02 -436 1.513561e+06 -1.00804e+02 -437 1.531087e+06 -1.00894e+02 -438 1.548817e+06 -1.00985e+02 -439 1.566751e+06 -1.01075e+02 -440 1.584893e+06 -1.01165e+02 -441 1.603245e+06 -1.01255e+02 -442 1.621810e+06 -1.01345e+02 -443 1.640590e+06 -1.01434e+02 -444 1.659587e+06 -1.01524e+02 -445 1.678804e+06 -1.01613e+02 -446 1.698244e+06 -1.01702e+02 -447 1.717908e+06 -1.01791e+02 -448 1.737801e+06 -1.01880e+02 -449 1.757924e+06 -1.01968e+02 -450 1.778279e+06 -1.02057e+02 -451 1.798871e+06 -1.02145e+02 -452 1.819701e+06 -1.02233e+02 -453 1.840772e+06 -1.02321e+02 -454 1.862087e+06 -1.02408e+02 -455 1.883649e+06 -1.02495e+02 -456 1.905461e+06 -1.02582e+02 -457 1.927525e+06 -1.02669e+02 -458 1.949845e+06 -1.02756e+02 -459 1.972423e+06 -1.02842e+02 -460 1.995262e+06 -1.02928e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -461 2.018366e+06 -1.03014e+02 -462 2.041738e+06 -1.03100e+02 -463 2.065380e+06 -1.03186e+02 -464 2.089296e+06 -1.03271e+02 -465 2.113489e+06 -1.03356e+02 -466 2.137962e+06 -1.03440e+02 -467 2.162719e+06 -1.03524e+02 -468 2.187762e+06 -1.03609e+02 -469 2.213095e+06 -1.03692e+02 -470 2.238721e+06 -1.03776e+02 -471 2.264644e+06 -1.03859e+02 -472 2.290868e+06 -1.03942e+02 -473 2.317395e+06 -1.04024e+02 -474 2.344229e+06 -1.04107e+02 -475 2.371374e+06 -1.04189e+02 -476 2.398833e+06 -1.04270e+02 -477 2.426610e+06 -1.04352e+02 -478 2.454709e+06 -1.04433e+02 -479 2.483133e+06 -1.04513e+02 -480 2.511886e+06 -1.04594e+02 -481 2.540973e+06 -1.04674e+02 -482 2.570396e+06 -1.04753e+02 -483 2.600160e+06 -1.04832e+02 -484 2.630268e+06 -1.04911e+02 -485 2.660725e+06 -1.04990e+02 -486 2.691535e+06 -1.05068e+02 -487 2.722701e+06 -1.05146e+02 -488 2.754229e+06 -1.05223e+02 -489 2.786121e+06 -1.05300e+02 -490 2.818383e+06 -1.05377e+02 -491 2.851018e+06 -1.05453e+02 -492 2.884032e+06 -1.05529e+02 -493 2.917427e+06 -1.05604e+02 -494 2.951209e+06 -1.05679e+02 -495 2.985383e+06 -1.05754e+02 -496 3.019952e+06 -1.05828e+02 -497 3.054921e+06 -1.05901e+02 -498 3.090295e+06 -1.05975e+02 -499 3.126079e+06 -1.06048e+02 -500 3.162278e+06 -1.06120e+02 -501 3.198895e+06 -1.06192e+02 -502 3.235937e+06 -1.06263e+02 -503 3.273407e+06 -1.06334e+02 -504 3.311311e+06 -1.06405e+02 -505 3.349654e+06 -1.06475e+02 -506 3.388442e+06 -1.06545e+02 -507 3.427678e+06 -1.06614e+02 -508 3.467369e+06 -1.06682e+02 -509 3.507519e+06 -1.06751e+02 -510 3.548134e+06 -1.06818e+02 -511 3.589219e+06 -1.06886e+02 -512 3.630781e+06 -1.06952e+02 -513 3.672823e+06 -1.07019e+02 -514 3.715352e+06 -1.07084e+02 -515 3.758374e+06 -1.07149e+02 -516 3.801894e+06 -1.07214e+02 -517 3.845918e+06 -1.07278e+02 -518 3.890451e+06 -1.07342e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -519 3.935501e+06 -1.07405e+02 -520 3.981072e+06 -1.07468e+02 -521 4.027170e+06 -1.07530e+02 -522 4.073803e+06 -1.07591e+02 -523 4.120975e+06 -1.07653e+02 -524 4.168694e+06 -1.07713e+02 -525 4.216965e+06 -1.07773e+02 -526 4.265795e+06 -1.07833e+02 -527 4.315191e+06 -1.07891e+02 -528 4.365158e+06 -1.07950e+02 -529 4.415704e+06 -1.08008e+02 -530 4.466836e+06 -1.08065e+02 -531 4.518559e+06 -1.08122e+02 -532 4.570882e+06 -1.08178e+02 -533 4.623810e+06 -1.08233e+02 -534 4.677351e+06 -1.08289e+02 -535 4.731513e+06 -1.08343e+02 -536 4.786301e+06 -1.08397e+02 -537 4.841724e+06 -1.08450e+02 -538 4.897788e+06 -1.08503e+02 -539 4.954502e+06 -1.08556e+02 -540 5.011872e+06 -1.08607e+02 -541 5.069907e+06 -1.08659e+02 -542 5.128614e+06 -1.08709e+02 -543 5.188000e+06 -1.08759e+02 -544 5.248075e+06 -1.08809e+02 -545 5.308844e+06 -1.08858e+02 -546 5.370318e+06 -1.08906e+02 -547 5.432503e+06 -1.08954e+02 -548 5.495409e+06 -1.09002e+02 -549 5.559043e+06 -1.09048e+02 -550 5.623413e+06 -1.09095e+02 -551 5.688529e+06 -1.09140e+02 -552 5.754399e+06 -1.09186e+02 -553 5.821032e+06 -1.09230e+02 -554 5.888437e+06 -1.09274e+02 -555 5.956621e+06 -1.09318e+02 -556 6.025596e+06 -1.09361e+02 -557 6.095369e+06 -1.09404e+02 -558 6.165950e+06 -1.09446e+02 -559 6.237348e+06 -1.09487e+02 -560 6.309573e+06 -1.09528e+02 -561 6.382635e+06 -1.09568e+02 -562 6.456542e+06 -1.09608e+02 -563 6.531306e+06 -1.09648e+02 -564 6.606934e+06 -1.09687e+02 -565 6.683439e+06 -1.09725e+02 -566 6.760830e+06 -1.09763e+02 -567 6.839116e+06 -1.09800e+02 -568 6.918310e+06 -1.09837e+02 -569 6.998420e+06 -1.09874e+02 -570 7.079458e+06 -1.09910e+02 -571 7.161434e+06 -1.09945e+02 -572 7.244360e+06 -1.09980e+02 -573 7.328245e+06 -1.10015e+02 -574 7.413102e+06 -1.10049e+02 -575 7.498942e+06 -1.10082e+02 -576 7.585776e+06 -1.10116e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -577 7.673615e+06 -1.10148e+02 -578 7.762471e+06 -1.10181e+02 -579 7.852356e+06 -1.10212e+02 -580 7.943282e+06 -1.10244e+02 -581 8.035261e+06 -1.10275e+02 -582 8.128305e+06 -1.10305e+02 -583 8.222426e+06 -1.10336e+02 -584 8.317638e+06 -1.10365e+02 -585 8.413951e+06 -1.10395e+02 -586 8.511380e+06 -1.10424e+02 -587 8.609938e+06 -1.10452e+02 -588 8.709636e+06 -1.10481e+02 -589 8.810489e+06 -1.10508e+02 -590 8.912509e+06 -1.10536e+02 -591 9.015711e+06 -1.10563e+02 -592 9.120108e+06 -1.10589e+02 -593 9.225714e+06 -1.10616e+02 -594 9.332543e+06 -1.10642e+02 -595 9.440609e+06 -1.10668e+02 -596 9.549926e+06 -1.10693e+02 -597 9.660509e+06 -1.10718e+02 -598 9.772372e+06 -1.10743e+02 -599 9.885531e+06 -1.10767e+02 -600 1.000000e+07 -1.10791e+02 -601 1.011579e+07 -1.10815e+02 -602 1.023293e+07 -1.10838e+02 -603 1.035142e+07 -1.10862e+02 -604 1.047129e+07 -1.10885e+02 -605 1.059254e+07 -1.10907e+02 -606 1.071519e+07 -1.10930e+02 -607 1.083927e+07 -1.10952e+02 -608 1.096478e+07 -1.10974e+02 -609 1.109175e+07 -1.10995e+02 -610 1.122018e+07 -1.11017e+02 -611 1.135011e+07 -1.11038e+02 -612 1.148154e+07 -1.11059e+02 -613 1.161449e+07 -1.11079e+02 -614 1.174898e+07 -1.11100e+02 -615 1.188502e+07 -1.11120e+02 -616 1.202264e+07 -1.11140e+02 -617 1.216186e+07 -1.11160e+02 -618 1.230269e+07 -1.11180e+02 -619 1.244515e+07 -1.11200e+02 -620 1.258925e+07 -1.11219e+02 -621 1.273503e+07 -1.11238e+02 -622 1.288250e+07 -1.11258e+02 -623 1.303167e+07 -1.11277e+02 -624 1.318257e+07 -1.11295e+02 -625 1.333521e+07 -1.11314e+02 -626 1.348963e+07 -1.11333e+02 -627 1.364583e+07 -1.11351e+02 -628 1.380384e+07 -1.11369e+02 -629 1.396368e+07 -1.11388e+02 -630 1.412538e+07 -1.11406e+02 -631 1.428894e+07 -1.11424e+02 -632 1.445440e+07 -1.11442e+02 -633 1.462177e+07 -1.11460e+02 -634 1.479108e+07 -1.11478e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -635 1.496236e+07 -1.11495e+02 -636 1.513561e+07 -1.11513e+02 -637 1.531087e+07 -1.11531e+02 -638 1.548817e+07 -1.11548e+02 -639 1.566751e+07 -1.11566e+02 -640 1.584893e+07 -1.11583e+02 -641 1.603245e+07 -1.11601e+02 -642 1.621810e+07 -1.11619e+02 -643 1.640590e+07 -1.11636e+02 -644 1.659587e+07 -1.11654e+02 -645 1.678804e+07 -1.11671e+02 -646 1.698244e+07 -1.11689e+02 -647 1.717908e+07 -1.11706e+02 -648 1.737801e+07 -1.11724e+02 -649 1.757924e+07 -1.11742e+02 -650 1.778279e+07 -1.11759e+02 -651 1.798871e+07 -1.11777e+02 -652 1.819701e+07 -1.11795e+02 -653 1.840772e+07 -1.11813e+02 -654 1.862087e+07 -1.11831e+02 -655 1.883649e+07 -1.11849e+02 -656 1.905461e+07 -1.11867e+02 -657 1.927525e+07 -1.11886e+02 -658 1.949845e+07 -1.11904e+02 -659 1.972423e+07 -1.11923e+02 -660 1.995262e+07 -1.11941e+02 -661 2.018366e+07 -1.11960e+02 -662 2.041738e+07 -1.11979e+02 -663 2.065380e+07 -1.11998e+02 -664 2.089296e+07 -1.12017e+02 -665 2.113489e+07 -1.12037e+02 -666 2.137962e+07 -1.12056e+02 -667 2.162719e+07 -1.12076e+02 -668 2.187762e+07 -1.12096e+02 -669 2.213095e+07 -1.12116e+02 -670 2.238721e+07 -1.12136e+02 -671 2.264644e+07 -1.12157e+02 -672 2.290868e+07 -1.12178e+02 -673 2.317395e+07 -1.12199e+02 -674 2.344229e+07 -1.12220e+02 -675 2.371374e+07 -1.12241e+02 -676 2.398833e+07 -1.12263e+02 -677 2.426610e+07 -1.12285e+02 -678 2.454709e+07 -1.12307e+02 -679 2.483133e+07 -1.12330e+02 -680 2.511886e+07 -1.12353e+02 -681 2.540973e+07 -1.12376e+02 -682 2.570396e+07 -1.12399e+02 -683 2.600160e+07 -1.12423e+02 -684 2.630268e+07 -1.12447e+02 -685 2.660725e+07 -1.12472e+02 -686 2.691535e+07 -1.12497e+02 -687 2.722701e+07 -1.12522e+02 -688 2.754229e+07 -1.12547e+02 -689 2.786121e+07 -1.12573e+02 -690 2.818383e+07 -1.12599e+02 -691 2.851018e+07 -1.12626e+02 -692 2.884032e+07 -1.12653e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -693 2.917427e+07 -1.12681e+02 -694 2.951209e+07 -1.12708e+02 -695 2.985383e+07 -1.12737e+02 -696 3.019952e+07 -1.12766e+02 -697 3.054921e+07 -1.12795e+02 -698 3.090295e+07 -1.12825e+02 -699 3.126079e+07 -1.12855e+02 -700 3.162278e+07 -1.12885e+02 -701 3.198895e+07 -1.12917e+02 -702 3.235937e+07 -1.12948e+02 -703 3.273407e+07 -1.12981e+02 -704 3.311311e+07 -1.13013e+02 -705 3.349654e+07 -1.13047e+02 -706 3.388442e+07 -1.13081e+02 -707 3.427678e+07 -1.13115e+02 -708 3.467369e+07 -1.13150e+02 -709 3.507519e+07 -1.13186e+02 -710 3.548134e+07 -1.13222e+02 -711 3.589219e+07 -1.13259e+02 -712 3.630781e+07 -1.13297e+02 -713 3.672823e+07 -1.13335e+02 -714 3.715352e+07 -1.13374e+02 -715 3.758374e+07 -1.13414e+02 -716 3.801894e+07 -1.13454e+02 -717 3.845918e+07 -1.13495e+02 -718 3.890451e+07 -1.13537e+02 -719 3.935501e+07 -1.13580e+02 -720 3.981072e+07 -1.13623e+02 -721 4.027170e+07 -1.13667e+02 -722 4.073803e+07 -1.13712e+02 -723 4.120975e+07 -1.13758e+02 -724 4.168694e+07 -1.13805e+02 -725 4.216965e+07 -1.13852e+02 -726 4.265795e+07 -1.13901e+02 -727 4.315191e+07 -1.13950e+02 -728 4.365158e+07 -1.14001e+02 -729 4.415704e+07 -1.14052e+02 -730 4.466836e+07 -1.14104e+02 -731 4.518559e+07 -1.14158e+02 -732 4.570882e+07 -1.14212e+02 -733 4.623810e+07 -1.14268e+02 -734 4.677351e+07 -1.14324e+02 -735 4.731513e+07 -1.14382e+02 -736 4.786301e+07 -1.14441e+02 -737 4.841724e+07 -1.14501e+02 -738 4.897788e+07 -1.14563e+02 -739 4.954502e+07 -1.14625e+02 -740 5.011872e+07 -1.14689e+02 -741 5.069907e+07 -1.14755e+02 -742 5.128614e+07 -1.14822e+02 -743 5.188000e+07 -1.14890e+02 -744 5.248075e+07 -1.14960e+02 -745 5.308844e+07 -1.15031e+02 -746 5.370318e+07 -1.15104e+02 -747 5.432503e+07 -1.15179e+02 -748 5.495409e+07 -1.15255e+02 -749 5.559043e+07 -1.15333e+02 -750 5.623413e+07 -1.15413e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -751 5.688529e+07 -1.15495e+02 -752 5.754399e+07 -1.15579e+02 -753 5.821032e+07 -1.15665e+02 -754 5.888437e+07 -1.15753e+02 -755 5.956621e+07 -1.15843e+02 -756 6.025596e+07 -1.15936e+02 -757 6.095369e+07 -1.16032e+02 -758 6.165950e+07 -1.16129e+02 -759 6.237348e+07 -1.16230e+02 -760 6.309573e+07 -1.16333e+02 -761 6.382635e+07 -1.16439e+02 -762 6.456542e+07 -1.16548e+02 -763 6.531306e+07 -1.16661e+02 -764 6.606934e+07 -1.16776e+02 -765 6.683439e+07 -1.16896e+02 -766 6.760830e+07 -1.17019e+02 -767 6.839116e+07 -1.17146e+02 -768 6.918310e+07 -1.17277e+02 -769 6.998420e+07 -1.17412e+02 -770 7.079458e+07 -1.17552e+02 -771 7.161434e+07 -1.17697e+02 -772 7.244360e+07 -1.17847e+02 -773 7.328245e+07 -1.18002e+02 -774 7.413102e+07 -1.18163e+02 -775 7.498942e+07 -1.18330e+02 -776 7.585776e+07 -1.18503e+02 -777 7.673615e+07 -1.18683e+02 -778 7.762471e+07 -1.18870e+02 -779 7.852356e+07 -1.19064e+02 -780 7.943282e+07 -1.19266e+02 -781 8.035261e+07 -1.19476e+02 -782 8.128305e+07 -1.19694e+02 -783 8.222426e+07 -1.19920e+02 -784 8.317638e+07 -1.20154e+02 -785 8.413951e+07 -1.20397e+02 -786 8.511380e+07 -1.20647e+02 -787 8.609938e+07 -1.20903e+02 -788 8.709636e+07 -1.21164e+02 -789 8.810489e+07 -1.21429e+02 -790 8.912509e+07 -1.21692e+02 -791 9.015711e+07 -1.21950e+02 -792 9.120108e+07 -1.22196e+02 -793 9.225714e+07 -1.22420e+02 -794 9.332543e+07 -1.22612e+02 -795 9.440609e+07 -1.22758e+02 -796 9.549926e+07 -1.22843e+02 -797 9.660509e+07 -1.22848e+02 -798 9.772372e+07 -1.22758e+02 -799 9.885531e+07 -1.22562e+02 -800 1.000000e+08 -1.22253e+02 -801 1.011579e+08 -1.21831e+02 -802 1.023293e+08 -1.21305e+02 -803 1.035142e+08 -1.20686e+02 -804 1.047129e+08 -1.19991e+02 -805 1.059254e+08 -1.19234e+02 -806 1.071519e+08 -1.18431e+02 -807 1.083927e+08 -1.17592e+02 -808 1.096478e+08 -1.16728e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -809 1.109175e+08 -1.15844e+02 -810 1.122018e+08 -1.14946e+02 -811 1.135011e+08 -1.14036e+02 -812 1.148154e+08 -1.13116e+02 -813 1.161449e+08 -1.12186e+02 -814 1.174898e+08 -1.11245e+02 -815 1.188502e+08 -1.10292e+02 -816 1.202264e+08 -1.09323e+02 -817 1.216186e+08 -1.08335e+02 -818 1.230269e+08 -1.07325e+02 -819 1.244515e+08 -1.06293e+02 -820 1.258925e+08 -1.05343e+02 -821 1.273503e+08 -1.05033e+02 -822 1.288250e+08 -1.03613e+02 -823 1.303167e+08 -1.02267e+02 -824 1.318257e+08 -1.00973e+02 -825 1.333521e+08 -9.96451e+01 -826 1.348963e+08 -9.82415e+01 -827 1.364583e+08 -9.67291e+01 -828 1.380384e+08 -9.50669e+01 -829 1.396368e+08 -9.31973e+01 -830 1.412538e+08 -9.10301e+01 -831 1.428894e+08 -8.84131e+01 -832 1.445440e+08 -8.50703e+01 -833 1.462177e+08 -8.05554e+01 -834 1.479108e+08 -7.61866e+01 -835 1.496236e+08 -7.91368e+01 -836 1.513561e+08 -8.33578e+01 -837 1.531087e+08 -8.63496e+01 -838 1.548817e+08 -8.85475e+01 -839 1.566751e+08 -9.02592e+01 -840 1.584893e+08 -9.16537e+01 -841 1.603245e+08 -9.28286e+01 -842 1.621810e+08 -9.38450e+01 -843 1.640590e+08 -9.47428e+01 -844 1.659587e+08 -9.55499e+01 -845 1.678804e+08 -9.62865e+01 -846 1.698244e+08 -9.69669e+01 -847 1.717908e+08 -9.76024e+01 -848 1.737801e+08 -9.82017e+01 -849 1.757924e+08 -9.87712e+01 -850 1.778279e+08 -9.93168e+01 -851 1.798871e+08 -9.98422e+01 -852 1.819701e+08 -1.00351e+02 -853 1.840772e+08 -1.00847e+02 -854 1.862087e+08 -1.01332e+02 -855 1.883649e+08 -1.01807e+02 -856 1.905461e+08 -1.02276e+02 -857 1.927525e+08 -1.02739e+02 -858 1.949845e+08 -1.03198e+02 -859 1.972423e+08 -1.03654e+02 -860 1.995262e+08 -1.04108e+02 -861 2.018366e+08 -1.04562e+02 -862 2.041738e+08 -1.05015e+02 -863 2.065380e+08 -1.05469e+02 -864 2.089296e+08 -1.05925e+02 -865 2.113489e+08 -1.06382e+02 -866 2.137962e+08 -1.06840e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -867 2.162719e+08 -1.07298e+02 -868 2.187762e+08 -1.07754e+02 -869 2.213095e+08 -1.08204e+02 -870 2.238721e+08 -1.08642e+02 -871 2.264644e+08 -1.09056e+02 -872 2.290868e+08 -1.09431e+02 -873 2.317395e+08 -1.09744e+02 -874 2.344229e+08 -1.09962e+02 -875 2.371374e+08 -1.10046e+02 -876 2.398833e+08 -1.09956e+02 -877 2.426610e+08 -1.09661e+02 -878 2.454709e+08 -1.09156e+02 -879 2.483133e+08 -1.08486e+02 -880 2.511886e+08 -1.07885e+02 -881 2.540973e+08 -1.09383e+02 -882 2.570396e+08 -1.07209e+02 -883 2.600160e+08 -1.03921e+02 -884 2.630268e+08 -1.02129e+02 -885 2.660725e+08 -1.00466e+02 -886 2.691535e+08 -9.87747e+01 -887 2.722701e+08 -9.70087e+01 -888 2.754229e+08 -9.51345e+01 -889 2.786121e+08 -9.31087e+01 -890 2.818383e+08 -9.08654e+01 -891 2.851018e+08 -8.82930e+01 -892 2.884032e+08 -8.51837e+01 -893 2.917427e+08 -8.11080e+01 -894 2.951209e+08 -7.52367e+01 -895 2.985383e+08 -7.21450e+01 -896 3.019952e+08 -7.78483e+01 -897 3.054921e+08 -8.19579e+01 -898 3.090295e+08 -8.47678e+01 -899 3.126079e+08 -8.68915e+01 -900 3.162278e+08 -8.86149e+01 -901 3.198895e+08 -9.00848e+01 -902 3.235937e+08 -9.13839e+01 -903 3.273407e+08 -9.25628e+01 -904 3.311311e+08 -9.36538e+01 -905 3.349654e+08 -9.46789e+01 -906 3.388442e+08 -9.56533e+01 -907 3.427678e+08 -9.65887e+01 -908 3.467369e+08 -9.74938e+01 -909 3.507519e+08 -9.83769e+01 -910 3.548134e+08 -9.92453e+01 -911 3.589219e+08 -1.00108e+02 -912 3.630781e+08 -1.00980e+02 -913 3.672823e+08 -1.01891e+02 -914 3.715352e+08 -1.02934e+02 -915 3.758374e+08 -1.04487e+02 -916 3.801894e+08 -1.09642e+02 -917 3.845918e+08 -1.01427e+02 -918 3.890451e+08 -1.00034e+02 -919 3.935501e+08 -9.99500e+01 -920 3.981072e+08 -9.92472e+01 -921 4.027170e+08 -9.80769e+01 -922 4.073803e+08 -9.65573e+01 -923 4.120975e+08 -9.47648e+01 -924 4.168694e+08 -9.27352e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -925 4.216965e+08 -9.04618e+01 -926 4.265795e+08 -8.78843e+01 -927 4.315191e+08 -8.48540e+01 -928 4.365158e+08 -8.10295e+01 -929 4.415704e+08 -7.55383e+01 -930 4.466836e+08 -6.80462e+01 -931 4.518559e+08 -7.37209e+01 -932 4.570882e+08 -7.91002e+01 -933 4.623810e+08 -8.25676e+01 -934 4.677351e+08 -8.51695e+01 -935 4.731513e+08 -8.73211e+01 -936 4.786301e+08 -8.92204e+01 -937 4.841724e+08 -9.09873e+01 -938 4.897788e+08 -9.27295e+01 -939 4.954502e+08 -9.46226e+01 -940 5.011872e+08 -9.71972e+01 -941 5.069907e+08 -1.03667e+02 -942 5.128614e+08 -9.17972e+01 -943 5.188000e+08 -9.32585e+01 -944 5.248075e+08 -9.48705e+01 -945 5.308844e+08 -9.55674e+01 -946 5.370318e+08 -9.55700e+01 -947 5.432503e+08 -9.49254e+01 -948 5.495409e+08 -9.36908e+01 -949 5.559043e+08 -9.19569e+01 -950 5.623413e+08 -8.98024e+01 -951 5.688529e+08 -8.72471e+01 -952 5.754399e+08 -8.42054e+01 -953 5.821032e+08 -8.03835e+01 -954 5.888437e+08 -7.49012e+01 -955 5.956621e+08 -6.62591e+01 -956 6.025596e+08 -7.25888e+01 -957 6.095369e+08 -7.87597e+01 -958 6.165950e+08 -8.29736e+01 -959 6.237348e+08 -8.67884e+01 -960 6.309573e+08 -9.20812e+01 -961 6.382635e+08 -8.88836e+01 -962 6.456542e+08 -8.50106e+01 -963 6.531306e+08 -8.83910e+01 -964 6.606934e+08 -9.04530e+01 -965 6.683439e+08 -9.18015e+01 -966 6.760830e+08 -9.25163e+01 -967 6.839116e+08 -9.25152e+01 -968 6.918310e+08 -9.17328e+01 -969 6.998420e+08 -9.02133e+01 -970 7.079458e+08 -8.80692e+01 -971 7.161434e+08 -8.53697e+01 -972 7.244360e+08 -8.20292e+01 -973 7.328245e+08 -7.75887e+01 -974 7.413102e+08 -7.03177e+01 -975 7.498942e+08 -7.00326e+01 -976 7.585776e+08 -8.18029e+01 -977 7.673615e+08 -7.62671e+01 -978 7.762471e+08 -7.79215e+01 -979 7.852356e+08 -8.24293e+01 -980 7.943282e+08 -8.54596e+01 -981 8.035261e+08 -8.77381e+01 -982 8.128305e+08 -8.94088e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -983 8.222426e+08 -9.03826e+01 -984 8.317638e+08 -9.04783e+01 -985 8.413951e+08 -8.96051e+01 -986 8.511380e+08 -8.78747e+01 -987 8.609938e+08 -8.55030e+01 -988 8.709636e+08 -8.26914e+01 -989 8.810489e+08 -7.98181e+01 -990 8.912509e+08 -7.13096e+01 -991 9.015711e+08 -6.13148e+01 -992 9.120108e+08 -7.18272e+01 -993 9.225714e+08 -7.75960e+01 -994 9.332543e+08 -8.16071e+01 -995 9.440609e+08 -8.47033e+01 -996 9.549926e+08 -8.70960e+01 -997 9.660509e+08 -8.87118e+01 -998 9.772372e+08 -8.93357e+01 -999 9.885531e+08 -8.88989e+01 -1000 1.000000e+09 -8.78256e+01 - -CPU time since last call: 0.673 seconds. - -Total CPU time: 0.673 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4853.496094 MB. -Total ngspice program size = 7.731445 MB. -Resident set size = 1.407227 MB. -Shared ngspice pages = 537.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 996.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec deleted file mode 100644 index 999d407..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -0.0 0.0056 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec deleted file mode 100644 index e74b915..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground -# cable bundle length (m) -0.1 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 1 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! inner shields all joined to outer shield at end 2 -0.0 -0.0 -0.0 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/Low_mass_spacewire_SE_10x10cm.jpg b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/Low_mass_spacewire_SE_10x10cm.jpg deleted file mode 100644 index 3452f9c..0000000 Binary files a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/Low_mass_spacewire_SE_10x10cm.jpg and /dev/null differ diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE.dat b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE.dat deleted file mode 100644 index a9fd5dd..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE.dat +++ /dev/null @@ -1,1627 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line10.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line10.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line9.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line8.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line7.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line6.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line5.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line4.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line3.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line2.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line1.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Wed Mar 14 16:41:29 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -0 1.000000e+04 -8.23916e+01 -1 1.011579e+04 -8.23918e+01 -2 1.023293e+04 -8.23923e+01 -3 1.035142e+04 -8.23924e+01 -4 1.047129e+04 -8.23931e+01 -5 1.059254e+04 -8.23932e+01 -6 1.071519e+04 -8.23936e+01 -7 1.083927e+04 -8.23939e+01 -8 1.096478e+04 -8.23944e+01 -9 1.109175e+04 -8.23948e+01 -10 1.122018e+04 -8.23951e+01 -11 1.135011e+04 -8.23956e+01 -12 1.148154e+04 -8.23959e+01 -13 1.161449e+04 -8.23964e+01 -14 1.174898e+04 -8.23968e+01 -15 1.188502e+04 -8.23972e+01 -16 1.202264e+04 -8.23976e+01 -17 1.216186e+04 -8.23981e+01 -18 1.230269e+04 -8.23987e+01 -19 1.244515e+04 -8.23992e+01 -20 1.258925e+04 -8.23994e+01 -21 1.273503e+04 -8.24001e+01 -22 1.288250e+04 -8.24006e+01 -23 1.303167e+04 -8.24011e+01 -24 1.318257e+04 -8.24016e+01 -25 1.333521e+04 -8.24021e+01 -26 1.348963e+04 -8.24028e+01 -27 1.364583e+04 -8.24033e+01 -28 1.380384e+04 -8.24038e+01 -29 1.396368e+04 -8.24045e+01 -30 1.412538e+04 -8.24052e+01 -31 1.428894e+04 -8.24061e+01 -32 1.445440e+04 -8.24065e+01 -33 1.462177e+04 -8.24073e+01 -34 1.479108e+04 -8.24080e+01 -35 1.496236e+04 -8.24086e+01 -36 1.513561e+04 -8.24091e+01 -37 1.531087e+04 -8.24100e+01 -38 1.548817e+04 -8.24108e+01 -39 1.566751e+04 -8.24116e+01 -40 1.584893e+04 -8.24121e+01 -41 1.603245e+04 -8.24130e+01 -42 1.621810e+04 -8.24139e+01 -43 1.640590e+04 -8.24149e+01 -44 1.659587e+04 -8.24156e+01 -45 1.678804e+04 -8.24164e+01 -46 1.698244e+04 -8.24175e+01 -47 1.717908e+04 -8.24181e+01 -48 1.737801e+04 -8.24192e+01 -49 1.757924e+04 -8.24200e+01 -50 1.778279e+04 -8.24210e+01 -51 1.798871e+04 -8.24223e+01 -52 1.819701e+04 -8.24233e+01 -53 1.840772e+04 -8.24243e+01 -54 1.862087e+04 -8.24255e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -55 1.883649e+04 -8.24266e+01 -56 1.905461e+04 -8.24276e+01 -57 1.927525e+04 -8.24287e+01 -58 1.949845e+04 -8.24299e+01 -59 1.972423e+04 -8.24310e+01 -60 1.995262e+04 -8.24325e+01 -61 2.018366e+04 -8.24338e+01 -62 2.041738e+04 -8.24349e+01 -63 2.065380e+04 -8.24362e+01 -64 2.089296e+04 -8.24376e+01 -65 2.113489e+04 -8.24390e+01 -66 2.137962e+04 -8.24405e+01 -67 2.162719e+04 -8.24418e+01 -68 2.187762e+04 -8.24433e+01 -69 2.213095e+04 -8.24450e+01 -70 2.238721e+04 -8.24465e+01 -71 2.264644e+04 -8.24480e+01 -72 2.290868e+04 -8.24498e+01 -73 2.317395e+04 -8.24513e+01 -74 2.344229e+04 -8.24531e+01 -75 2.371374e+04 -8.24547e+01 -76 2.398833e+04 -8.24564e+01 -77 2.426610e+04 -8.24582e+01 -78 2.454709e+04 -8.24602e+01 -79 2.483133e+04 -8.24622e+01 -80 2.511886e+04 -8.24642e+01 -81 2.540973e+04 -8.24661e+01 -82 2.570396e+04 -8.24680e+01 -83 2.600160e+04 -8.24700e+01 -84 2.630268e+04 -8.24722e+01 -85 2.660725e+04 -8.24743e+01 -86 2.691535e+04 -8.24767e+01 -87 2.722701e+04 -8.24789e+01 -88 2.754229e+04 -8.24813e+01 -89 2.786121e+04 -8.24838e+01 -90 2.818383e+04 -8.24863e+01 -91 2.851018e+04 -8.24886e+01 -92 2.884032e+04 -8.24912e+01 -93 2.917427e+04 -8.24937e+01 -94 2.951209e+04 -8.24965e+01 -95 2.985383e+04 -8.24991e+01 -96 3.019952e+04 -8.25019e+01 -97 3.054921e+04 -8.25048e+01 -98 3.090295e+04 -8.25076e+01 -99 3.126079e+04 -8.25104e+01 -100 3.162278e+04 -8.25136e+01 -101 3.198895e+04 -8.25169e+01 -102 3.235937e+04 -8.25199e+01 -103 3.273407e+04 -8.25231e+01 -104 3.311311e+04 -8.25266e+01 -105 3.349654e+04 -8.25301e+01 -106 3.388442e+04 -8.25335e+01 -107 3.427678e+04 -8.25372e+01 -108 3.467369e+04 -8.25407e+01 -109 3.507519e+04 -8.25444e+01 -110 3.548134e+04 -8.25482e+01 -111 3.589219e+04 -8.25520e+01 -112 3.630781e+04 -8.25561e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -113 3.672823e+04 -8.25600e+01 -114 3.715352e+04 -8.25643e+01 -115 3.758374e+04 -8.25685e+01 -116 3.801894e+04 -8.25729e+01 -117 3.845918e+04 -8.25774e+01 -118 3.890451e+04 -8.25819e+01 -119 3.935501e+04 -8.25866e+01 -120 3.981072e+04 -8.25914e+01 -121 4.027170e+04 -8.25961e+01 -122 4.073803e+04 -8.26011e+01 -123 4.120975e+04 -8.26062e+01 -124 4.168694e+04 -8.26115e+01 -125 4.216965e+04 -8.26166e+01 -126 4.265795e+04 -8.26220e+01 -127 4.315191e+04 -8.26276e+01 -128 4.365158e+04 -8.26332e+01 -129 4.415704e+04 -8.26390e+01 -130 4.466836e+04 -8.26449e+01 -131 4.518559e+04 -8.26511e+01 -132 4.570882e+04 -8.26571e+01 -133 4.623810e+04 -8.26636e+01 -134 4.677351e+04 -8.26698e+01 -135 4.731513e+04 -8.26763e+01 -136 4.786301e+04 -8.26831e+01 -137 4.841724e+04 -8.26900e+01 -138 4.897788e+04 -8.26970e+01 -139 4.954502e+04 -8.27042e+01 -140 5.011872e+04 -8.27115e+01 -141 5.069907e+04 -8.27188e+01 -142 5.128614e+04 -8.27266e+01 -143 5.188000e+04 -8.27344e+01 -144 5.248075e+04 -8.27423e+01 -145 5.308844e+04 -8.27507e+01 -146 5.370318e+04 -8.27589e+01 -147 5.432503e+04 -8.27673e+01 -148 5.495409e+04 -8.27759e+01 -149 5.559043e+04 -8.27850e+01 -150 5.623413e+04 -8.27939e+01 -151 5.688529e+04 -8.28032e+01 -152 5.754399e+04 -8.28125e+01 -153 5.821032e+04 -8.28221e+01 -154 5.888437e+04 -8.28319e+01 -155 5.956621e+04 -8.28422e+01 -156 6.025596e+04 -8.28524e+01 -157 6.095369e+04 -8.28628e+01 -158 6.165950e+04 -8.28736e+01 -159 6.237348e+04 -8.28843e+01 -160 6.309573e+04 -8.28954e+01 -161 6.382635e+04 -8.29067e+01 -162 6.456542e+04 -8.29183e+01 -163 6.531306e+04 -8.29301e+01 -164 6.606934e+04 -8.29423e+01 -165 6.683439e+04 -8.29545e+01 -166 6.760830e+04 -8.29670e+01 -167 6.839116e+04 -8.29799e+01 -168 6.918310e+04 -8.29931e+01 -169 6.998420e+04 -8.30063e+01 -170 7.079458e+04 -8.30199e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -171 7.161434e+04 -8.30338e+01 -172 7.244360e+04 -8.30482e+01 -173 7.328245e+04 -8.30626e+01 -174 7.413102e+04 -8.30771e+01 -175 7.498942e+04 -8.30921e+01 -176 7.585776e+04 -8.31075e+01 -177 7.673615e+04 -8.31229e+01 -178 7.762471e+04 -8.31388e+01 -179 7.852356e+04 -8.31552e+01 -180 7.943282e+04 -8.31717e+01 -181 8.035261e+04 -8.31884e+01 -182 8.128305e+04 -8.32058e+01 -183 8.222426e+04 -8.32232e+01 -184 8.317638e+04 -8.32411e+01 -185 8.413951e+04 -8.32593e+01 -186 8.511380e+04 -8.32778e+01 -187 8.609938e+04 -8.32966e+01 -188 8.709636e+04 -8.33159e+01 -189 8.810489e+04 -8.33356e+01 -190 8.912509e+04 -8.33556e+01 -191 9.015711e+04 -8.33760e+01 -192 9.120108e+04 -8.33967e+01 -193 9.225714e+04 -8.34178e+01 -194 9.332543e+04 -8.34395e+01 -195 9.440609e+04 -8.34610e+01 -196 9.549926e+04 -8.34833e+01 -197 9.660509e+04 -8.35061e+01 -198 9.772372e+04 -8.35290e+01 -199 9.885531e+04 -8.35528e+01 -200 1.000000e+05 -8.35767e+01 -201 1.011579e+05 -8.36009e+01 -202 1.023293e+05 -8.36258e+01 -203 1.035142e+05 -8.36508e+01 -204 1.047129e+05 -8.36764e+01 -205 1.059254e+05 -8.37024e+01 -206 1.071519e+05 -8.37289e+01 -207 1.083927e+05 -8.37557e+01 -208 1.096478e+05 -8.37833e+01 -209 1.109175e+05 -8.38111e+01 -210 1.122018e+05 -8.38395e+01 -211 1.135011e+05 -8.38683e+01 -212 1.148154e+05 -8.38976e+01 -213 1.161449e+05 -8.39274e+01 -214 1.174898e+05 -8.39576e+01 -215 1.188502e+05 -8.39885e+01 -216 1.202264e+05 -8.40195e+01 -217 1.216186e+05 -8.40515e+01 -218 1.230269e+05 -8.40835e+01 -219 1.244515e+05 -8.41164e+01 -220 1.258925e+05 -8.41496e+01 -221 1.273503e+05 -8.41833e+01 -222 1.288250e+05 -8.42172e+01 -223 1.303167e+05 -8.42521e+01 -224 1.318257e+05 -8.42874e+01 -225 1.333521e+05 -8.43232e+01 -226 1.348963e+05 -8.43596e+01 -227 1.364583e+05 -8.43964e+01 -228 1.380384e+05 -8.44338e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -229 1.396368e+05 -8.44719e+01 -230 1.412538e+05 -8.45104e+01 -231 1.428894e+05 -8.45494e+01 -232 1.445440e+05 -8.45889e+01 -233 1.462177e+05 -8.46292e+01 -234 1.479108e+05 -8.46699e+01 -235 1.496236e+05 -8.47111e+01 -236 1.513561e+05 -8.47530e+01 -237 1.531087e+05 -8.47952e+01 -238 1.548817e+05 -8.48382e+01 -239 1.566751e+05 -8.48817e+01 -240 1.584893e+05 -8.49257e+01 -241 1.603245e+05 -8.49705e+01 -242 1.621810e+05 -8.50157e+01 -243 1.640590e+05 -8.50616e+01 -244 1.659587e+05 -8.51078e+01 -245 1.678804e+05 -8.51549e+01 -246 1.698244e+05 -8.52024e+01 -247 1.717908e+05 -8.52503e+01 -248 1.737801e+05 -8.52987e+01 -249 1.757924e+05 -8.53482e+01 -250 1.778279e+05 -8.53978e+01 -251 1.798871e+05 -8.54480e+01 -252 1.819701e+05 -8.54990e+01 -253 1.840772e+05 -8.55505e+01 -254 1.862087e+05 -8.56025e+01 -255 1.883649e+05 -8.56552e+01 -256 1.905461e+05 -8.57084e+01 -257 1.927525e+05 -8.57620e+01 -258 1.949845e+05 -8.58165e+01 -259 1.972423e+05 -8.58715e+01 -260 1.995262e+05 -8.59269e+01 -261 2.018366e+05 -8.59830e+01 -262 2.041738e+05 -8.60395e+01 -263 2.065380e+05 -8.60967e+01 -264 2.089296e+05 -8.61541e+01 -265 2.113489e+05 -8.62125e+01 -266 2.137962e+05 -8.62716e+01 -267 2.162719e+05 -8.63309e+01 -268 2.187762e+05 -8.63909e+01 -269 2.213095e+05 -8.64514e+01 -270 2.238721e+05 -8.65124e+01 -271 2.264644e+05 -8.65742e+01 -272 2.290868e+05 -8.66361e+01 -273 2.317395e+05 -8.66985e+01 -274 2.344229e+05 -8.67617e+01 -275 2.371374e+05 -8.68254e+01 -276 2.398833e+05 -8.68897e+01 -277 2.426610e+05 -8.69544e+01 -278 2.454709e+05 -8.70195e+01 -279 2.483133e+05 -8.70856e+01 -280 2.511886e+05 -8.71518e+01 -281 2.540973e+05 -8.72185e+01 -282 2.570396e+05 -8.72860e+01 -283 2.600160e+05 -8.73539e+01 -284 2.630268e+05 -8.74221e+01 -285 2.660725e+05 -8.74909e+01 -286 2.691535e+05 -8.75603e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -287 2.722701e+05 -8.76299e+01 -288 2.754229e+05 -8.76999e+01 -289 2.786121e+05 -8.77706e+01 -290 2.818383e+05 -8.78417e+01 -291 2.851018e+05 -8.79137e+01 -292 2.884032e+05 -8.79856e+01 -293 2.917427e+05 -8.80581e+01 -294 2.951209e+05 -8.81310e+01 -295 2.985383e+05 -8.82044e+01 -296 3.019952e+05 -8.82784e+01 -297 3.054921e+05 -8.83525e+01 -298 3.090295e+05 -8.84272e+01 -299 3.126079e+05 -8.85021e+01 -300 3.162278e+05 -8.85778e+01 -301 3.198895e+05 -8.86539e+01 -302 3.235937e+05 -8.87300e+01 -303 3.273407e+05 -8.88066e+01 -304 3.311311e+05 -8.88839e+01 -305 3.349654e+05 -8.89617e+01 -306 3.388442e+05 -8.90393e+01 -307 3.427678e+05 -8.91177e+01 -308 3.467369e+05 -8.91964e+01 -309 3.507519e+05 -8.92755e+01 -310 3.548134e+05 -8.93545e+01 -311 3.589219e+05 -8.94344e+01 -312 3.630781e+05 -8.95145e+01 -313 3.672823e+05 -8.95949e+01 -314 3.715352e+05 -8.96755e+01 -315 3.758374e+05 -8.97567e+01 -316 3.801894e+05 -8.98383e+01 -317 3.845918e+05 -8.99200e+01 -318 3.890451e+05 -9.00020e+01 -319 3.935501e+05 -9.00844e+01 -320 3.981072e+05 -9.01672e+01 -321 4.027170e+05 -9.02503e+01 -322 4.073803e+05 -9.03334e+01 -323 4.120975e+05 -9.04172e+01 -324 4.168694e+05 -9.05008e+01 -325 4.216965e+05 -9.05851e+01 -326 4.265795e+05 -9.06698e+01 -327 4.315191e+05 -9.07546e+01 -328 4.365158e+05 -9.08396e+01 -329 4.415704e+05 -9.09247e+01 -330 4.466836e+05 -9.10100e+01 -331 4.518559e+05 -9.10959e+01 -332 4.570882e+05 -9.11818e+01 -333 4.623810e+05 -9.12682e+01 -334 4.677351e+05 -9.13547e+01 -335 4.731513e+05 -9.14414e+01 -336 4.786301e+05 -9.15284e+01 -337 4.841724e+05 -9.16156e+01 -338 4.897788e+05 -9.17028e+01 -339 4.954502e+05 -9.17905e+01 -340 5.011872e+05 -9.18785e+01 -341 5.069907e+05 -9.19665e+01 -342 5.128614e+05 -9.20549e+01 -343 5.188000e+05 -9.21429e+01 -344 5.248075e+05 -9.22317e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -345 5.308844e+05 -9.23206e+01 -346 5.370318e+05 -9.24098e+01 -347 5.432503e+05 -9.24989e+01 -348 5.495409e+05 -9.25881e+01 -349 5.559043e+05 -9.26782e+01 -350 5.623413e+05 -9.27675e+01 -351 5.688529e+05 -9.28572e+01 -352 5.754399e+05 -9.29472e+01 -353 5.821032e+05 -9.30373e+01 -354 5.888437e+05 -9.31277e+01 -355 5.956621e+05 -9.32179e+01 -356 6.025596e+05 -9.33089e+01 -357 6.095369e+05 -9.33995e+01 -358 6.165950e+05 -9.34903e+01 -359 6.237348e+05 -9.35812e+01 -360 6.309573e+05 -9.36723e+01 -361 6.382635e+05 -9.37636e+01 -362 6.456542e+05 -9.38552e+01 -363 6.531306e+05 -9.39464e+01 -364 6.606934e+05 -9.40383e+01 -365 6.683439e+05 -9.41297e+01 -366 6.760830e+05 -9.42215e+01 -367 6.839116e+05 -9.43133e+01 -368 6.918310e+05 -9.44057e+01 -369 6.998420e+05 -9.44977e+01 -370 7.079458e+05 -9.45897e+01 -371 7.161434e+05 -9.46822e+01 -372 7.244360e+05 -9.47742e+01 -373 7.328245e+05 -9.48670e+01 -374 7.413102e+05 -9.49596e+01 -375 7.498942e+05 -9.50517e+01 -376 7.585776e+05 -9.51443e+01 -377 7.673615e+05 -9.52369e+01 -378 7.762471e+05 -9.53312e+01 -379 7.852356e+05 -9.54241e+01 -380 7.943282e+05 -9.55170e+01 -381 8.035261e+05 -9.56106e+01 -382 8.128305e+05 -9.57034e+01 -383 8.222426e+05 -9.57962e+01 -384 8.317638e+05 -9.58898e+01 -385 8.413951e+05 -9.59826e+01 -386 8.511380e+05 -9.60753e+01 -387 8.609938e+05 -9.61684e+01 -388 8.709636e+05 -9.62619e+01 -389 8.810489e+05 -9.63550e+01 -390 8.912509e+05 -9.64477e+01 -391 9.015711e+05 -9.65414e+01 -392 9.120108e+05 -9.66345e+01 -393 9.225714e+05 -9.67276e+01 -394 9.332543e+05 -9.68218e+01 -395 9.440609e+05 -9.69151e+01 -396 9.549926e+05 -9.70083e+01 -397 9.660509e+05 -9.71016e+01 -398 9.772372e+05 -9.71948e+01 -399 9.885531e+05 -9.72878e+01 -400 1.000000e+06 -9.73809e+01 -401 1.011579e+06 -9.74741e+01 -402 1.023293e+06 -9.75675e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -403 1.035142e+06 -9.76609e+01 -404 1.047129e+06 -9.77540e+01 -405 1.059254e+06 -9.78472e+01 -406 1.071519e+06 -9.79405e+01 -407 1.083927e+06 -9.80332e+01 -408 1.096478e+06 -9.81265e+01 -409 1.109175e+06 -9.82197e+01 -410 1.122018e+06 -9.83126e+01 -411 1.135011e+06 -9.84054e+01 -412 1.148154e+06 -9.84985e+01 -413 1.161449e+06 -9.85915e+01 -414 1.174898e+06 -9.86836e+01 -415 1.188502e+06 -9.87766e+01 -416 1.202264e+06 -9.88693e+01 -417 1.216186e+06 -9.89610e+01 -418 1.230269e+06 -9.90535e+01 -419 1.244515e+06 -9.91458e+01 -420 1.258925e+06 -9.92380e+01 -421 1.273503e+06 -9.93301e+01 -422 1.288250e+06 -9.94222e+01 -423 1.303167e+06 -9.95144e+01 -424 1.318257e+06 -9.96063e+01 -425 1.333521e+06 -9.96978e+01 -426 1.348963e+06 -9.97903e+01 -427 1.364583e+06 -9.98821e+01 -428 1.380384e+06 -9.99734e+01 -429 1.396368e+06 -1.00065e+02 -430 1.412538e+06 -1.00155e+02 -431 1.428894e+06 -1.00246e+02 -432 1.445440e+06 -1.00337e+02 -433 1.462177e+06 -1.00428e+02 -434 1.479108e+06 -1.00519e+02 -435 1.496236e+06 -1.00610e+02 -436 1.513561e+06 -1.00700e+02 -437 1.531087e+06 -1.00791e+02 -438 1.548817e+06 -1.00881e+02 -439 1.566751e+06 -1.00971e+02 -440 1.584893e+06 -1.01061e+02 -441 1.603245e+06 -1.01151e+02 -442 1.621810e+06 -1.01241e+02 -443 1.640590e+06 -1.01330e+02 -444 1.659587e+06 -1.01419e+02 -445 1.678804e+06 -1.01509e+02 -446 1.698244e+06 -1.01598e+02 -447 1.717908e+06 -1.01686e+02 -448 1.737801e+06 -1.01775e+02 -449 1.757924e+06 -1.01863e+02 -450 1.778279e+06 -1.01951e+02 -451 1.798871e+06 -1.02040e+02 -452 1.819701e+06 -1.02127e+02 -453 1.840772e+06 -1.02215e+02 -454 1.862087e+06 -1.02303e+02 -455 1.883649e+06 -1.02390e+02 -456 1.905461e+06 -1.02478e+02 -457 1.927525e+06 -1.02564e+02 -458 1.949845e+06 -1.02651e+02 -459 1.972423e+06 -1.02738e+02 -460 1.995262e+06 -1.02823e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -461 2.018366e+06 -1.02910e+02 -462 2.041738e+06 -1.02994e+02 -463 2.065380e+06 -1.03080e+02 -464 2.089296e+06 -1.03166e+02 -465 2.113489e+06 -1.03251e+02 -466 2.137962e+06 -1.03335e+02 -467 2.162719e+06 -1.03419e+02 -468 2.187762e+06 -1.03503e+02 -469 2.213095e+06 -1.03586e+02 -470 2.238721e+06 -1.03670e+02 -471 2.264644e+06 -1.03753e+02 -472 2.290868e+06 -1.03835e+02 -473 2.317395e+06 -1.03918e+02 -474 2.344229e+06 -1.04001e+02 -475 2.371374e+06 -1.04083e+02 -476 2.398833e+06 -1.04164e+02 -477 2.426610e+06 -1.04245e+02 -478 2.454709e+06 -1.04326e+02 -479 2.483133e+06 -1.04406e+02 -480 2.511886e+06 -1.04486e+02 -481 2.540973e+06 -1.04566e+02 -482 2.570396e+06 -1.04646e+02 -483 2.600160e+06 -1.04724e+02 -484 2.630268e+06 -1.04803e+02 -485 2.660725e+06 -1.04881e+02 -486 2.691535e+06 -1.04960e+02 -487 2.722701e+06 -1.05037e+02 -488 2.754229e+06 -1.05114e+02 -489 2.786121e+06 -1.05191e+02 -490 2.818383e+06 -1.05268e+02 -491 2.851018e+06 -1.05344e+02 -492 2.884032e+06 -1.05420e+02 -493 2.917427e+06 -1.05495e+02 -494 2.951209e+06 -1.05570e+02 -495 2.985383e+06 -1.05643e+02 -496 3.019952e+06 -1.05718e+02 -497 3.054921e+06 -1.05791e+02 -498 3.090295e+06 -1.05865e+02 -499 3.126079e+06 -1.05938e+02 -500 3.162278e+06 -1.06009e+02 -501 3.198895e+06 -1.06083e+02 -502 3.235937e+06 -1.06154e+02 -503 3.273407e+06 -1.06225e+02 -504 3.311311e+06 -1.06295e+02 -505 3.349654e+06 -1.06365e+02 -506 3.388442e+06 -1.06435e+02 -507 3.427678e+06 -1.06501e+02 -508 3.467369e+06 -1.06571e+02 -509 3.507519e+06 -1.06639e+02 -510 3.548134e+06 -1.06706e+02 -511 3.589219e+06 -1.06773e+02 -512 3.630781e+06 -1.06840e+02 -513 3.672823e+06 -1.06907e+02 -514 3.715352e+06 -1.06972e+02 -515 3.758374e+06 -1.07037e+02 -516 3.801894e+06 -1.07101e+02 -517 3.845918e+06 -1.07165e+02 -518 3.890451e+06 -1.07230e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -519 3.935501e+06 -1.07292e+02 -520 3.981072e+06 -1.07354e+02 -521 4.027170e+06 -1.07417e+02 -522 4.073803e+06 -1.07477e+02 -523 4.120975e+06 -1.07539e+02 -524 4.168694e+06 -1.07599e+02 -525 4.216965e+06 -1.07659e+02 -526 4.265795e+06 -1.07717e+02 -527 4.315191e+06 -1.07775e+02 -528 4.365158e+06 -1.07834e+02 -529 4.415704e+06 -1.07892e+02 -530 4.466836e+06 -1.07951e+02 -531 4.518559e+06 -1.08009e+02 -532 4.570882e+06 -1.08064e+02 -533 4.623810e+06 -1.08117e+02 -534 4.677351e+06 -1.08172e+02 -535 4.731513e+06 -1.08227e+02 -536 4.786301e+06 -1.08281e+02 -537 4.841724e+06 -1.08335e+02 -538 4.897788e+06 -1.08388e+02 -539 4.954502e+06 -1.08441e+02 -540 5.011872e+06 -1.08492e+02 -541 5.069907e+06 -1.08544e+02 -542 5.128614e+06 -1.08595e+02 -543 5.188000e+06 -1.08642e+02 -544 5.248075e+06 -1.08691e+02 -545 5.308844e+06 -1.08740e+02 -546 5.370318e+06 -1.08789e+02 -547 5.432503e+06 -1.08841e+02 -548 5.495409e+06 -1.08886e+02 -549 5.559043e+06 -1.08930e+02 -550 5.623413e+06 -1.08977e+02 -551 5.688529e+06 -1.09022e+02 -552 5.754399e+06 -1.09069e+02 -553 5.821032e+06 -1.09113e+02 -554 5.888437e+06 -1.09158e+02 -555 5.956621e+06 -1.09199e+02 -556 6.025596e+06 -1.09242e+02 -557 6.095369e+06 -1.09284e+02 -558 6.165950e+06 -1.09327e+02 -559 6.237348e+06 -1.09371e+02 -560 6.309573e+06 -1.09412e+02 -561 6.382635e+06 -1.09448e+02 -562 6.456542e+06 -1.09489e+02 -563 6.531306e+06 -1.09530e+02 -564 6.606934e+06 -1.09568e+02 -565 6.683439e+06 -1.09606e+02 -566 6.760830e+06 -1.09643e+02 -567 6.839116e+06 -1.09680e+02 -568 6.918310e+06 -1.09716e+02 -569 6.998420e+06 -1.09754e+02 -570 7.079458e+06 -1.09788e+02 -571 7.161434e+06 -1.09826e+02 -572 7.244360e+06 -1.09860e+02 -573 7.328245e+06 -1.09896e+02 -574 7.413102e+06 -1.09931e+02 -575 7.498942e+06 -1.09962e+02 -576 7.585776e+06 -1.09994e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -577 7.673615e+06 -1.10028e+02 -578 7.762471e+06 -1.10060e+02 -579 7.852356e+06 -1.10094e+02 -580 7.943282e+06 -1.10126e+02 -581 8.035261e+06 -1.10156e+02 -582 8.128305e+06 -1.10186e+02 -583 8.222426e+06 -1.10219e+02 -584 8.317638e+06 -1.10242e+02 -585 8.413951e+06 -1.10274e+02 -586 8.511380e+06 -1.10302e+02 -587 8.609938e+06 -1.10330e+02 -588 8.709636e+06 -1.10359e+02 -589 8.810489e+06 -1.10388e+02 -590 8.912509e+06 -1.10416e+02 -591 9.015711e+06 -1.10441e+02 -592 9.120108e+06 -1.10470e+02 -593 9.225714e+06 -1.10495e+02 -594 9.332543e+06 -1.10526e+02 -595 9.440609e+06 -1.10551e+02 -596 9.549926e+06 -1.10570e+02 -597 9.660509e+06 -1.10601e+02 -598 9.772372e+06 -1.10624e+02 -599 9.885531e+06 -1.10646e+02 -600 1.000000e+07 -1.10669e+02 -601 1.011579e+07 -1.10695e+02 -602 1.023293e+07 -1.10718e+02 -603 1.035142e+07 -1.10738e+02 -604 1.047129e+07 -1.10765e+02 -605 1.059254e+07 -1.10790e+02 -606 1.071519e+07 -1.10813e+02 -607 1.083927e+07 -1.10834e+02 -608 1.096478e+07 -1.10852e+02 -609 1.109175e+07 -1.10877e+02 -610 1.122018e+07 -1.10898e+02 -611 1.135011e+07 -1.10919e+02 -612 1.148154e+07 -1.10935e+02 -613 1.161449e+07 -1.10968e+02 -614 1.174898e+07 -1.10983e+02 -615 1.188502e+07 -1.10998e+02 -616 1.202264e+07 -1.11023e+02 -617 1.216186e+07 -1.11044e+02 -618 1.230269e+07 -1.11063e+02 -619 1.244515e+07 -1.11079e+02 -620 1.258925e+07 -1.11106e+02 -621 1.273503e+07 -1.11118e+02 -622 1.288250e+07 -1.11141e+02 -623 1.303167e+07 -1.11159e+02 -624 1.318257e+07 -1.11179e+02 -625 1.333521e+07 -1.11195e+02 -626 1.348963e+07 -1.11217e+02 -627 1.364583e+07 -1.11236e+02 -628 1.380384e+07 -1.11254e+02 -629 1.396368e+07 -1.11264e+02 -630 1.412538e+07 -1.11293e+02 -631 1.428894e+07 -1.11311e+02 -632 1.445440e+07 -1.11325e+02 -633 1.462177e+07 -1.11348e+02 -634 1.479108e+07 -1.11352e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -635 1.496236e+07 -1.11385e+02 -636 1.513561e+07 -1.11400e+02 -637 1.531087e+07 -1.11412e+02 -638 1.548817e+07 -1.11438e+02 -639 1.566751e+07 -1.11450e+02 -640 1.584893e+07 -1.11471e+02 -641 1.603245e+07 -1.11487e+02 -642 1.621810e+07 -1.11498e+02 -643 1.640590e+07 -1.11528e+02 -644 1.659587e+07 -1.11550e+02 -645 1.678804e+07 -1.11555e+02 -646 1.698244e+07 -1.11574e+02 -647 1.717908e+07 -1.11593e+02 -648 1.737801e+07 -1.11616e+02 -649 1.757924e+07 -1.11631e+02 -650 1.778279e+07 -1.11653e+02 -651 1.798871e+07 -1.11665e+02 -652 1.819701e+07 -1.11678e+02 -653 1.840772e+07 -1.11707e+02 -654 1.862087e+07 -1.11720e+02 -655 1.883649e+07 -1.11749e+02 -656 1.905461e+07 -1.11754e+02 -657 1.927525e+07 -1.11776e+02 -658 1.949845e+07 -1.11801e+02 -659 1.972423e+07 -1.11831e+02 -660 1.995262e+07 -1.11834e+02 -661 2.018366e+07 -1.11858e+02 -662 2.041738e+07 -1.11875e+02 -663 2.065380e+07 -1.11883e+02 -664 2.089296e+07 -1.11907e+02 -665 2.113489e+07 -1.11916e+02 -666 2.137962e+07 -1.11950e+02 -667 2.162719e+07 -1.11973e+02 -668 2.187762e+07 -1.11985e+02 -669 2.213095e+07 -1.12015e+02 -670 2.238721e+07 -1.12026e+02 -671 2.264644e+07 -1.12043e+02 -672 2.290868e+07 -1.12063e+02 -673 2.317395e+07 -1.12081e+02 -674 2.344229e+07 -1.12109e+02 -675 2.371374e+07 -1.12101e+02 -676 2.398833e+07 -1.12162e+02 -677 2.426610e+07 -1.12161e+02 -678 2.454709e+07 -1.12180e+02 -679 2.483133e+07 -1.12215e+02 -680 2.511886e+07 -1.12221e+02 -681 2.540973e+07 -1.12232e+02 -682 2.570396e+07 -1.12256e+02 -683 2.600160e+07 -1.12314e+02 -684 2.630268e+07 -1.12352e+02 -685 2.660725e+07 -1.12339e+02 -686 2.691535e+07 -1.12381e+02 -687 2.722701e+07 -1.12402e+02 -688 2.754229e+07 -1.12402e+02 -689 2.786121e+07 -1.12455e+02 -690 2.818383e+07 -1.12496e+02 -691 2.851018e+07 -1.12499e+02 -692 2.884032e+07 -1.12518e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -693 2.917427e+07 -1.12571e+02 -694 2.951209e+07 -1.12605e+02 -695 2.985383e+07 -1.12594e+02 -696 3.019952e+07 -1.12631e+02 -697 3.054921e+07 -1.12640e+02 -698 3.090295e+07 -1.12650e+02 -699 3.126079e+07 -1.12698e+02 -700 3.162278e+07 -1.12744e+02 -701 3.198895e+07 -1.12738e+02 -702 3.235937e+07 -1.12789e+02 -703 3.273407e+07 -1.12847e+02 -704 3.311311e+07 -1.12860e+02 -705 3.349654e+07 -1.12910e+02 -706 3.388442e+07 -1.12938e+02 -707 3.427678e+07 -1.12956e+02 -708 3.467369e+07 -1.12969e+02 -709 3.507519e+07 -1.12984e+02 -710 3.548134e+07 -1.13070e+02 -711 3.589219e+07 -1.13094e+02 -712 3.630781e+07 -1.13105e+02 -713 3.672823e+07 -1.13143e+02 -714 3.715352e+07 -1.13126e+02 -715 3.758374e+07 -1.13182e+02 -716 3.801894e+07 -1.13196e+02 -717 3.845918e+07 -1.13269e+02 -718 3.890451e+07 -1.13228e+02 -719 3.935501e+07 -1.13274e+02 -720 3.981072e+07 -1.13374e+02 -721 4.027170e+07 -1.13430e+02 -722 4.073803e+07 -1.13441e+02 -723 4.120975e+07 -1.13512e+02 -724 4.168694e+07 -1.13485e+02 -725 4.216965e+07 -1.13554e+02 -726 4.265795e+07 -1.13611e+02 -727 4.315191e+07 -1.13525e+02 -728 4.365158e+07 -1.13711e+02 -729 4.415704e+07 -1.13731e+02 -730 4.466836e+07 -1.13760e+02 -731 4.518559e+07 -1.13855e+02 -732 4.570882e+07 -1.13839e+02 -733 4.623810e+07 -1.13764e+02 -734 4.677351e+07 -1.13886e+02 -735 4.731513e+07 -1.13882e+02 -736 4.786301e+07 -1.13970e+02 -737 4.841724e+07 -1.13983e+02 -738 4.897788e+07 -1.14036e+02 -739 4.954502e+07 -1.14196e+02 -740 5.011872e+07 -1.14073e+02 -741 5.069907e+07 -1.14086e+02 -742 5.128614e+07 -1.14188e+02 -743 5.188000e+07 -1.14192e+02 -744 5.248075e+07 -1.14211e+02 -745 5.308844e+07 -1.14343e+02 -746 5.370318e+07 -1.14285e+02 -747 5.432503e+07 -1.14388e+02 -748 5.495409e+07 -1.14620e+02 -749 5.559043e+07 -1.14520e+02 -750 5.623413e+07 -1.14407e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -751 5.688529e+07 -1.14687e+02 -752 5.754399e+07 -1.14493e+02 -753 5.821032e+07 -1.14540e+02 -754 5.888437e+07 -1.14667e+02 -755 5.956621e+07 -1.14601e+02 -756 6.025596e+07 -1.14747e+02 -757 6.095369e+07 -1.14841e+02 -758 6.165950e+07 -1.14676e+02 -759 6.237348e+07 -1.14693e+02 -760 6.309573e+07 -1.14742e+02 -761 6.382635e+07 -1.14560e+02 -762 6.456542e+07 -1.15017e+02 -763 6.531306e+07 -1.14705e+02 -764 6.606934e+07 -1.15140e+02 -765 6.683439e+07 -1.14819e+02 -766 6.760830e+07 -1.15126e+02 -767 6.839116e+07 -1.15396e+02 -768 6.918310e+07 -1.15292e+02 -769 6.998420e+07 -1.15404e+02 -770 7.079458e+07 -1.15148e+02 -771 7.161434e+07 -1.15670e+02 -772 7.244360e+07 -1.15355e+02 -773 7.328245e+07 -1.15081e+02 -774 7.413102e+07 -1.14901e+02 -775 7.498942e+07 -1.15694e+02 -776 7.585776e+07 -1.16038e+02 -777 7.673615e+07 -1.15066e+02 -778 7.762471e+07 -1.15138e+02 -779 7.852356e+07 -1.15714e+02 -780 7.943282e+07 -1.15296e+02 -781 8.035261e+07 -1.15510e+02 -782 8.128305e+07 -1.15031e+02 -783 8.222426e+07 -1.14761e+02 -784 8.317638e+07 -1.15186e+02 -785 8.413951e+07 -1.16348e+02 -786 8.511380e+07 -1.15983e+02 -787 8.609938e+07 -1.14076e+02 -788 8.709636e+07 -1.14902e+02 -789 8.810489e+07 -1.15589e+02 -790 8.912509e+07 -1.14012e+02 -791 9.015711e+07 -1.14924e+02 -792 9.120108e+07 -1.17412e+02 -793 9.225714e+07 -1.10462e+02 -794 9.332543e+07 -1.12348e+02 -795 9.440609e+07 -1.10828e+02 -796 9.549926e+07 -1.15066e+02 -797 9.660509e+07 -1.14962e+02 -798 9.772372e+07 -1.16948e+02 -799 9.885531e+07 -1.14962e+02 -800 1.000000e+08 -1.14407e+02 -801 1.011579e+08 -1.13483e+02 -802 1.023293e+08 -1.13904e+02 -803 1.035142e+08 -1.14398e+02 -804 1.047129e+08 -1.13818e+02 -805 1.059254e+08 -1.14107e+02 -806 1.071519e+08 -1.14364e+02 -807 1.083927e+08 -1.14172e+02 -808 1.096478e+08 -1.13448e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -809 1.109175e+08 -1.12988e+02 -810 1.122018e+08 -1.13346e+02 -811 1.135011e+08 -1.13082e+02 -812 1.148154e+08 -1.12809e+02 -813 1.161449e+08 -1.12809e+02 -814 1.174898e+08 -1.12751e+02 -815 1.188502e+08 -1.12332e+02 -816 1.202264e+08 -1.12474e+02 -817 1.216186e+08 -1.12431e+02 -818 1.230269e+08 -1.12470e+02 -819 1.244515e+08 -1.12732e+02 -820 1.258925e+08 -1.13271e+02 -821 1.273503e+08 -1.10395e+02 -822 1.288250e+08 -1.08923e+02 -823 1.303167e+08 -1.09799e+02 -824 1.318257e+08 -1.09990e+02 -825 1.333521e+08 -1.09925e+02 -826 1.348963e+08 -1.09965e+02 -827 1.364583e+08 -1.09903e+02 -828 1.380384e+08 -1.09821e+02 -829 1.396368e+08 -1.09763e+02 -830 1.412538e+08 -1.09663e+02 -831 1.428894e+08 -1.09581e+02 -832 1.445440e+08 -1.09380e+02 -833 1.462177e+08 -1.09318e+02 -834 1.479108e+08 -1.09222e+02 -835 1.496236e+08 -1.09145e+02 -836 1.513561e+08 -1.09144e+02 -837 1.531087e+08 -1.09048e+02 -838 1.548817e+08 -1.09012e+02 -839 1.566751e+08 -1.09050e+02 -840 1.584893e+08 -1.08945e+02 -841 1.603245e+08 -1.08962e+02 -842 1.621810e+08 -1.08954e+02 -843 1.640590e+08 -1.08995e+02 -844 1.659587e+08 -1.08926e+02 -845 1.678804e+08 -1.09036e+02 -846 1.698244e+08 -1.09011e+02 -847 1.717908e+08 -1.09064e+02 -848 1.737801e+08 -1.09096e+02 -849 1.757924e+08 -1.09168e+02 -850 1.778279e+08 -1.09198e+02 -851 1.798871e+08 -1.09243e+02 -852 1.819701e+08 -1.09370e+02 -853 1.840772e+08 -1.09444e+02 -854 1.862087e+08 -1.09457e+02 -855 1.883649e+08 -1.09508e+02 -856 1.905461e+08 -1.09669e+02 -857 1.927525e+08 -1.09669e+02 -858 1.949845e+08 -1.09761e+02 -859 1.972423e+08 -1.09875e+02 -860 1.995262e+08 -1.09901e+02 -861 2.018366e+08 -1.09931e+02 -862 2.041738e+08 -1.09982e+02 -863 2.065380e+08 -1.10065e+02 -864 2.089296e+08 -1.10094e+02 -865 2.113489e+08 -1.10138e+02 -866 2.137962e+08 -1.10136e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -867 2.162719e+08 -1.10062e+02 -868 2.187762e+08 -1.10092e+02 -869 2.213095e+08 -1.10152e+02 -870 2.238721e+08 -1.10081e+02 -871 2.264644e+08 -1.10018e+02 -872 2.290868e+08 -1.10046e+02 -873 2.317395e+08 -1.09851e+02 -874 2.344229e+08 -1.09843e+02 -875 2.371374e+08 -1.09693e+02 -876 2.398833e+08 -1.09532e+02 -877 2.426610e+08 -1.09562e+02 -878 2.454709e+08 -1.09598e+02 -879 2.483133e+08 -1.09578e+02 -880 2.511886e+08 -1.09990e+02 -881 2.540973e+08 -1.09844e+02 -882 2.570396e+08 -1.04665e+02 -883 2.600160e+08 -1.06148e+02 -884 2.630268e+08 -1.06337e+02 -885 2.660725e+08 -1.06412e+02 -886 2.691535e+08 -1.06371e+02 -887 2.722701e+08 -1.06283e+02 -888 2.754229e+08 -1.06203e+02 -889 2.786121e+08 -1.03528e+02 -890 2.818383e+08 -1.05651e+02 -891 2.851018e+08 -1.05659e+02 -892 2.884032e+08 -1.05540e+02 -893 2.917427e+08 -1.05307e+02 -894 2.951209e+08 -1.05304e+02 -895 2.985383e+08 -1.05219e+02 -896 3.019952e+08 -1.05214e+02 -897 3.054921e+08 -1.05246e+02 -898 3.090295e+08 -1.05304e+02 -899 3.126079e+08 -1.05366e+02 -900 3.162278e+08 -1.05538e+02 -901 3.198895e+08 -1.05645e+02 -902 3.235937e+08 -1.05813e+02 -903 3.273407e+08 -1.05995e+02 -904 3.311311e+08 -1.06175e+02 -905 3.349654e+08 -1.06356e+02 -906 3.388442e+08 -1.06536e+02 -907 3.427678e+08 -1.06702e+02 -908 3.467369e+08 -1.06863e+02 -909 3.507519e+08 -1.07013e+02 -910 3.548134e+08 -1.07147e+02 -911 3.589219e+08 -1.07273e+02 -912 3.630781e+08 -1.07403e+02 -913 3.672823e+08 -1.07557e+02 -914 3.715352e+08 -1.07790e+02 -915 3.758374e+08 -1.08256e+02 -916 3.801894e+08 -1.08839e+02 -917 3.845918e+08 -1.01791e+02 -918 3.890451e+08 -1.04010e+02 -919 3.935501e+08 -1.04631e+02 -920 3.981072e+08 -1.04775e+02 -921 4.027170e+08 -1.04729e+02 -922 4.073803e+08 -1.04579e+02 -923 4.120975e+08 -1.04395e+02 -924 4.168694e+08 -1.04173e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -925 4.216965e+08 -1.03993e+02 -926 4.265795e+08 -1.03803e+02 -927 4.315191e+08 -1.03636e+02 -928 4.365158e+08 -1.03430e+02 -929 4.415704e+08 -1.03379e+02 -930 4.466836e+08 -1.03428e+02 -931 4.518559e+08 -1.03351e+02 -932 4.570882e+08 -1.03772e+02 -933 4.623810e+08 -1.03240e+02 -934 4.677351e+08 -1.04133e+02 -935 4.731513e+08 -1.04452e+02 -936 4.786301e+08 -1.04853e+02 -937 4.841724e+08 -1.05269e+02 -938 4.897788e+08 -1.05705e+02 -939 4.954502e+08 -1.06173e+02 -940 5.011872e+08 -1.06927e+02 -941 5.069907e+08 -1.07920e+02 -942 5.128614e+08 -1.00524e+02 -943 5.188000e+08 -1.02652e+02 -944 5.248075e+08 -1.03614e+02 -945 5.308844e+08 -1.03918e+02 -946 5.370318e+08 -1.04034e+02 -947 5.432503e+08 -1.03988e+02 -948 5.495409e+08 -1.03835e+02 -949 5.559043e+08 -1.03656e+02 -950 5.623413e+08 -1.03446e+02 -951 5.688529e+08 -1.03255e+02 -952 5.754399e+08 -1.03027e+02 -953 5.821032e+08 -1.02909e+02 -954 5.888437e+08 -1.02891e+02 -955 5.956621e+08 -1.02987e+02 -956 6.025596e+08 -1.03236e+02 -957 6.095369e+08 -1.03677e+02 -958 6.165950e+08 -1.04282e+02 -959 6.237348e+08 -1.05215e+02 -960 6.309573e+08 -1.06788e+02 -961 6.382635e+08 -1.03353e+02 -962 6.456542e+08 -1.00653e+02 -963 6.531306e+08 -1.02881e+02 -964 6.606934e+08 -1.03368e+02 -965 6.683439e+08 -1.03631e+02 -966 6.760830e+08 -1.03946e+02 -967 6.839116e+08 -1.04044e+02 -968 6.918310e+08 -1.04002e+02 -969 6.998420e+08 -1.03893e+02 -970 7.079458e+08 -1.03754e+02 -971 7.161434e+08 -1.03550e+02 -972 7.244360e+08 -1.03489e+02 -973 7.328245e+08 -1.03549e+02 -974 7.413102e+08 -1.03875e+02 -975 7.498942e+08 -1.04732e+02 -976 7.585776e+08 -1.06708e+02 -977 7.673615e+08 -1.01821e+02 -978 7.762471e+08 -1.00208e+02 -979 7.852356e+08 -1.02102e+02 -980 7.943282e+08 -1.03181e+02 -981 8.035261e+08 -1.03881e+02 -982 8.128305e+08 -1.04361e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -983 8.222426e+08 -1.04660e+02 -984 8.317638e+08 -1.04619e+02 -985 8.413951e+08 -1.05658e+02 -986 8.511380e+08 -1.04988e+02 -987 8.609938e+08 -1.05069e+02 -988 8.709636e+08 -1.05329e+02 -989 8.810489e+08 -1.06432e+02 -990 8.912509e+08 -1.08725e+02 -991 9.015711e+08 -9.91189e+01 -992 9.120108e+08 -1.01271e+02 -993 9.225714e+08 -1.02721e+02 -994 9.332543e+08 -1.03810e+02 -995 9.440609e+08 -1.04697e+02 -996 9.549926e+08 -1.05434e+02 -997 9.660509e+08 -1.06019e+02 -998 9.772372e+08 -1.06435e+02 -999 9.885531e+08 -1.06919e+02 -1000 1.000000e+09 -1.07396e+02 - -elapsed time since last call: 10.150 seconds. - -Total elapsed time: 10.150 seconds. - -Total DRAM available = 7721.769531 MB. -DRAM currently available = 4169.355469 MB. -Total ngspice program size = 21.291992 MB. -Resident set size = 7.290039 MB. -Shared ngspice pages = 1.867188 MB. -Text (code) pages = 1.489258 MB. -Stack = 0 bytes. -Library pages = 5.696289 MB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE_10x10cm.cir b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE_10x10cm.cir deleted file mode 100644 index 7d4426a..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/SE_10x10cm.cir +++ /dev/null @@ -1,178 +0,0 @@ -Ngspice multi-conductor transmission line validation model -* Created by Spice cable model builder v3.0.3 -* -* Voltage sources at end 1 -VS_1 2 0 AC 0.000000E+00 0.000000E+00 -VS_2 3 0 AC 0.000000E+00 0.000000E+00 -VS_3 4 0 AC 0.000000E+00 0.000000E+00 -VS_4 5 0 AC 0.000000E+00 0.000000E+00 -VS_5 6 0 AC 0.000000E+00 0.000000E+00 -VS_6 7 0 AC 0.000000E+00 0.000000E+00 -VS_7 8 0 AC 0.000000E+00 0.000000E+00 -VS_8 9 0 AC 0.000000E+00 0.000000E+00 -VS_9 10 0 AC 0.000000E+00 0.000000E+00 -VS_10 11 0 AC 0.000000E+00 0.000000E+00 -VS_11 12 0 AC 0.000000E+00 0.000000E+00 -VS_12 13 0 AC 0.000000E+00 0.000000E+00 -VS_13 14 0 AC 0.000000E+00 0.000000E+00 -VS_14 15 0 AC 2.000000E+00 0.000000E+00 -* Voltage sources at end 2 -VL_1 16 1 AC 0.000000E+00 0.000000E+00 -VL_2 17 1 AC 0.000000E+00 0.000000E+00 -VL_3 18 1 AC 0.000000E+00 0.000000E+00 -VL_4 19 1 AC 0.000000E+00 0.000000E+00 -VL_5 20 1 AC 0.000000E+00 0.000000E+00 -VL_6 21 1 AC 0.000000E+00 0.000000E+00 -VL_7 22 1 AC 0.000000E+00 0.000000E+00 -VL_8 23 1 AC 0.000000E+00 0.000000E+00 -VL_9 24 1 AC 0.000000E+00 0.000000E+00 -VL_10 25 1 AC 0.000000E+00 0.000000E+00 -VL_11 26 1 AC 0.000000E+00 0.000000E+00 -VL_12 27 1 AC 0.000000E+00 0.000000E+00 -VL_13 28 1 AC 0.000000E+00 0.000000E+00 -VL_14 29 1 AC 0.000000E+00 0.000000E+00 -* Impedance network at end 1 -RS_1 30 2 5.000000E+01 -RS_2 31 3 1.000000E+06 -RS_3 32 4 1.000000E+06 -RS_4 33 5 1.000000E+06 -RS_5 34 6 1.000000E+06 -RS_6 35 7 1.000000E+06 -RS_7 36 8 1.000000E+06 -RS_8 37 9 1.000000E+06 -RS_9 38 10 1.000000E-08 -RS_10 39 11 1.000000E-06 -RS_11 40 12 1.000000E-06 -RS_12 41 13 1.000000E-06 -RS_13 42 14 1.000000E-08 -RS_14 43 15 5.000000E+01 -* Impedance network at end 2 -RL_1 44 16 5.000000E+01 -RL_2 45 17 1.000000E+06 -RL_3 46 18 1.000000E+06 -RL_4 47 19 1.000000E+06 -RL_5 48 20 1.000000E+06 -RL_6 49 21 1.000000E+06 -RL_7 50 22 1.000000E+06 -RL_8 51 23 1.000000E+06 -RL_9 52 24 1.000000E-08 -RL_10 53 25 1.000000E-06 -RL_11 54 26 1.000000E-06 -RL_12 55 27 1.000000E-06 -RL_13 56 28 1.000000E-08 -RL_14 57 29 5.000000E+01 -* Link to transmission line sub-circuit -xtransmission_line1 -+ 30 31 32 33 34 35 36 37 38 39 40 41 42 43 -+ 101 102 103 104 105 106 107 108 109 110 111 112 113 114 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_1_1 109 113 1e-6 -RLSW_1_2 110 113 1e-6 -RLSW_1_3 111 113 1e-6 -RLSW_1_4 112 113 1e-6 -* -xtransmission_line2 -+ 101 102 103 104 105 106 107 108 109 110 111 112 113 114 -+ 201 202 203 204 205 206 207 208 209 210 211 212 213 214 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_2_1 209 213 1e-6 -RLSW_2_2 210 213 1e-6 -RLSW_2_3 211 213 1e-6 -RLSW_2_4 212 213 1e-6 -* -xtransmission_line3 -+ 201 202 203 204 205 206 207 208 209 210 211 212 213 214 -+ 301 302 303 304 305 306 307 308 309 310 311 312 313 314 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_3_1 309 313 1e-6 -RLSW_3_2 310 313 1e-6 -RLSW_3_3 311 313 1e-6 -RLSW_3_4 312 313 1e-6 -* -xtransmission_line4 -+ 301 302 303 304 305 306 307 308 309 310 311 312 313 314 -+ 401 402 403 404 405 406 407 408 409 410 411 412 413 414 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_4_1 409 413 1e-6 -RLSW_4_2 410 413 1e-6 -RLSW_4_3 411 413 1e-6 -RLSW_4_4 412 413 1e-6 -* -xtransmission_line5 -+ 401 402 403 404 405 406 407 408 409 410 411 412 413 414 -+ 501 502 503 504 505 506 507 508 509 510 511 512 513 514 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_5_1 509 513 1e-6 -RLSW_5_2 510 513 1e-6 -RLSW_5_3 511 513 1e-6 -RLSW_5_4 512 513 1e-6 -* -xtransmission_line6 -+ 501 502 503 504 505 506 507 508 509 510 511 512 513 514 -+ 601 602 603 604 605 606 607 608 609 610 611 612 613 614 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_6_1 609 613 1e-6 -RLSW_6_2 610 613 1e-6 -RLSW_6_3 611 613 1e-6 -RLSW_6_4 612 613 1e-6 -* -xtransmission_line7 -+ 601 602 603 604 605 606 607 608 609 610 611 612 613 614 -+ 701 702 703 704 705 706 707 708 709 710 711 712 713 714 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_7_1 709 713 1e-6 -RLSW_7_2 710 713 1e-6 -RLSW_7_3 711 713 1e-6 -RLSW_7_4 712 713 1e-6 -* -xtransmission_line8 -+ 701 702 703 704 705 706 707 708 709 710 711 712 713 714 -+ 801 802 803 804 805 806 807 808 809 810 811 812 813 814 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_8_1 809 813 1e-6 -RLSW_8_2 810 813 1e-6 -RLSW_8_3 811 813 1e-6 -RLSW_8_4 812 813 1e-6 -* -xtransmission_line9 -+ 801 802 803 804 805 806 807 808 809 810 811 812 813 814 -+ 901 902 903 904 905 906 907 908 909 910 911 912 913 914 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm -* -* short inner shields to outer shield -RLSW_9_1 909 913 1e-6 -RLSW_9_2 910 913 1e-6 -RLSW_9_3 911 913 1e-6 -RLSW_9_4 912 913 1e-6 -* -xtransmission_line10 -+ 901 902 903 904 905 906 907 908 909 910 911 912 913 914 -+ 44 45 46 47 48 49 50 51 52 53 54 55 56 57 -+LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm - - -* -.INCLUDE /home/chris/ESA_SPICE_CABLE_MODELLING/SPACECRAFT_CABLE_MOD/MOD_SPACE_CABLES/SPICE/LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1_over_ground_10cm_Ngspice.lib -* -.AC DEC 200 1.000000E+04 1.000000E+09 -* -.PRINT ac VDB(44,52) -* -* -.END diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/plot.plt b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/plot.plt deleted file mode 100644 index 985804d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/plot.plt +++ /dev/null @@ -1,14 +0,0 @@ -set xlabel "Frequency (Hz)" -set ylabel "SE (dB)" -set logscale x -plot "SE.dat" u 2:3 w l -pause -1 - -#quit - -set term jpeg -set output "Low_mass_spacewire_SE_10x10cm.jpg" -set xlabel "Frequency (Hz)" -set ylabel "SE (dB)" -set logscale x -plot "SE.dat" u 2:3 w l diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/run_ngspice b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/run_ngspice deleted file mode 100644 index 51a29bc..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/RUN_10x10cm/run_ngspice +++ /dev/null @@ -1,2 +0,0 @@ -ngspice -b SE_10x10cm.cir -o SE.dat -gnuplot plot.plt diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/analytic_solution.dat_reference deleted file mode 100644 index b6b2d90..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 10000.000000000000 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a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.94901424 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/spice_solution.dat_reference deleted file mode 100644 index 7e66b38..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:11:44 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -0 1.000000e+04 -1.02371e+02 -1 1.011579e+04 -1.02371e+02 -2 1.023293e+04 -1.02372e+02 -3 1.035142e+04 -1.02372e+02 -4 1.047129e+04 -1.02372e+02 -5 1.059254e+04 -1.02373e+02 -6 1.071519e+04 -1.02373e+02 -7 1.083927e+04 -1.02373e+02 -8 1.096478e+04 -1.02374e+02 -9 1.109175e+04 -1.02374e+02 -10 1.122018e+04 -1.02374e+02 -11 1.135011e+04 -1.02375e+02 -12 1.148154e+04 -1.02375e+02 -13 1.161449e+04 -1.02376e+02 -14 1.174898e+04 -1.02376e+02 -15 1.188502e+04 -1.02377e+02 -16 1.202264e+04 -1.02377e+02 -17 1.216186e+04 -1.02377e+02 -18 1.230269e+04 -1.02378e+02 -19 1.244515e+04 -1.02378e+02 -20 1.258925e+04 -1.02379e+02 -21 1.273503e+04 -1.02379e+02 -22 1.288250e+04 -1.02380e+02 -23 1.303167e+04 -1.02380e+02 -24 1.318257e+04 -1.02381e+02 -25 1.333521e+04 -1.02382e+02 -26 1.348963e+04 -1.02382e+02 -27 1.364583e+04 -1.02383e+02 -28 1.380384e+04 -1.02383e+02 -29 1.396368e+04 -1.02384e+02 -30 1.412538e+04 -1.02385e+02 -31 1.428894e+04 -1.02385e+02 -32 1.445440e+04 -1.02386e+02 -33 1.462177e+04 -1.02386e+02 -34 1.479108e+04 -1.02387e+02 -35 1.496236e+04 -1.02388e+02 -36 1.513561e+04 -1.02389e+02 -37 1.531087e+04 -1.02389e+02 -38 1.548817e+04 -1.02390e+02 -39 1.566751e+04 -1.02391e+02 -40 1.584893e+04 -1.02392e+02 -41 1.603245e+04 -1.02392e+02 -42 1.621810e+04 -1.02393e+02 -43 1.640590e+04 -1.02394e+02 -44 1.659587e+04 -1.02395e+02 -45 1.678804e+04 -1.02396e+02 -46 1.698244e+04 -1.02397e+02 -47 1.717908e+04 -1.02398e+02 -48 1.737801e+04 -1.02399e+02 -49 1.757924e+04 -1.02400e+02 -50 1.778279e+04 -1.02401e+02 -51 1.798871e+04 -1.02402e+02 -52 1.819701e+04 -1.02403e+02 -53 1.840772e+04 -1.02404e+02 -54 1.862087e+04 -1.02405e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -55 1.883649e+04 -1.02406e+02 -56 1.905461e+04 -1.02407e+02 -57 1.927525e+04 -1.02408e+02 -58 1.949845e+04 -1.02409e+02 -59 1.972423e+04 -1.02410e+02 -60 1.995262e+04 -1.02412e+02 -61 2.018366e+04 -1.02413e+02 -62 2.041738e+04 -1.02414e+02 -63 2.065380e+04 -1.02416e+02 -64 2.089296e+04 -1.02417e+02 -65 2.113489e+04 -1.02418e+02 -66 2.137962e+04 -1.02420e+02 -67 2.162719e+04 -1.02421e+02 -68 2.187762e+04 -1.02423e+02 -69 2.213095e+04 -1.02424e+02 -70 2.238721e+04 -1.02426e+02 -71 2.264644e+04 -1.02427e+02 -72 2.290868e+04 -1.02429e+02 -73 2.317395e+04 -1.02431e+02 -74 2.344229e+04 -1.02432e+02 -75 2.371374e+04 -1.02434e+02 -76 2.398833e+04 -1.02436e+02 -77 2.426610e+04 -1.02438e+02 -78 2.454709e+04 -1.02439e+02 -79 2.483133e+04 -1.02441e+02 -80 2.511886e+04 -1.02443e+02 -81 2.540973e+04 -1.02445e+02 -82 2.570396e+04 -1.02447e+02 -83 2.600160e+04 -1.02449e+02 -84 2.630268e+04 -1.02452e+02 -85 2.660725e+04 -1.02454e+02 -86 2.691535e+04 -1.02456e+02 -87 2.722701e+04 -1.02458e+02 -88 2.754229e+04 -1.02461e+02 -89 2.786121e+04 -1.02463e+02 -90 2.818383e+04 -1.02465e+02 -91 2.851018e+04 -1.02468e+02 -92 2.884032e+04 -1.02470e+02 -93 2.917427e+04 -1.02473e+02 -94 2.951209e+04 -1.02476e+02 -95 2.985383e+04 -1.02478e+02 -96 3.019952e+04 -1.02481e+02 -97 3.054921e+04 -1.02484e+02 -98 3.090295e+04 -1.02487e+02 -99 3.126079e+04 -1.02490e+02 -100 3.162278e+04 -1.02493e+02 -101 3.198895e+04 -1.02496e+02 -102 3.235937e+04 -1.02499e+02 -103 3.273407e+04 -1.02502e+02 -104 3.311311e+04 -1.02506e+02 -105 3.349654e+04 -1.02509e+02 -106 3.388442e+04 -1.02513e+02 -107 3.427678e+04 -1.02516e+02 -108 3.467369e+04 -1.02520e+02 -109 3.507519e+04 -1.02524e+02 -110 3.548134e+04 -1.02527e+02 -111 3.589219e+04 -1.02531e+02 -112 3.630781e+04 -1.02535e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -113 3.672823e+04 -1.02539e+02 -114 3.715352e+04 -1.02544e+02 -115 3.758374e+04 -1.02548e+02 -116 3.801894e+04 -1.02552e+02 -117 3.845918e+04 -1.02557e+02 -118 3.890451e+04 -1.02561e+02 -119 3.935501e+04 -1.02566e+02 -120 3.981072e+04 -1.02570e+02 -121 4.027170e+04 -1.02575e+02 -122 4.073803e+04 -1.02580e+02 -123 4.120975e+04 -1.02585e+02 -124 4.168694e+04 -1.02590e+02 -125 4.216965e+04 -1.02596e+02 -126 4.265795e+04 -1.02601e+02 -127 4.315191e+04 -1.02607e+02 -128 4.365158e+04 -1.02612e+02 -129 4.415704e+04 -1.02618e+02 -130 4.466836e+04 -1.02624e+02 -131 4.518559e+04 -1.02630e+02 -132 4.570882e+04 -1.02636e+02 -133 4.623810e+04 -1.02643e+02 -134 4.677351e+04 -1.02649e+02 -135 4.731513e+04 -1.02655e+02 -136 4.786301e+04 -1.02662e+02 -137 4.841724e+04 -1.02669e+02 -138 4.897788e+04 -1.02676e+02 -139 4.954502e+04 -1.02683e+02 -140 5.011872e+04 -1.02691e+02 -141 5.069907e+04 -1.02698e+02 -142 5.128614e+04 -1.02706e+02 -143 5.188000e+04 -1.02713e+02 -144 5.248075e+04 -1.02721e+02 -145 5.308844e+04 -1.02730e+02 -146 5.370318e+04 -1.02738e+02 -147 5.432503e+04 -1.02746e+02 -148 5.495409e+04 -1.02755e+02 -149 5.559043e+04 -1.02764e+02 -150 5.623413e+04 -1.02773e+02 -151 5.688529e+04 -1.02782e+02 -152 5.754399e+04 -1.02791e+02 -153 5.821032e+04 -1.02801e+02 -154 5.888437e+04 -1.02811e+02 -155 5.956621e+04 -1.02821e+02 -156 6.025596e+04 -1.02831e+02 -157 6.095369e+04 -1.02842e+02 -158 6.165950e+04 -1.02852e+02 -159 6.237348e+04 -1.02863e+02 -160 6.309573e+04 -1.02874e+02 -161 6.382635e+04 -1.02886e+02 -162 6.456542e+04 -1.02897e+02 -163 6.531306e+04 -1.02909e+02 -164 6.606934e+04 -1.02921e+02 -165 6.683439e+04 -1.02933e+02 -166 6.760830e+04 -1.02946e+02 -167 6.839116e+04 -1.02959e+02 -168 6.918310e+04 -1.02972e+02 -169 6.998420e+04 -1.02985e+02 -170 7.079458e+04 -1.02999e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -171 7.161434e+04 -1.03013e+02 -172 7.244360e+04 -1.03027e+02 -173 7.328245e+04 -1.03041e+02 -174 7.413102e+04 -1.03056e+02 -175 7.498942e+04 -1.03071e+02 -176 7.585776e+04 -1.03086e+02 -177 7.673615e+04 -1.03102e+02 -178 7.762471e+04 -1.03118e+02 -179 7.852356e+04 -1.03134e+02 -180 7.943282e+04 -1.03150e+02 -181 8.035261e+04 -1.03167e+02 -182 8.128305e+04 -1.03184e+02 -183 8.222426e+04 -1.03202e+02 -184 8.317638e+04 -1.03220e+02 -185 8.413951e+04 -1.03238e+02 -186 8.511380e+04 -1.03257e+02 -187 8.609938e+04 -1.03275e+02 -188 8.709636e+04 -1.03295e+02 -189 8.810489e+04 -1.03314e+02 -190 8.912509e+04 -1.03334e+02 -191 9.015711e+04 -1.03355e+02 -192 9.120108e+04 -1.03375e+02 -193 9.225714e+04 -1.03396e+02 -194 9.332543e+04 -1.03418e+02 -195 9.440609e+04 -1.03440e+02 -196 9.549926e+04 -1.03462e+02 -197 9.660509e+04 -1.03485e+02 -198 9.772372e+04 -1.03508e+02 -199 9.885531e+04 -1.03531e+02 -200 1.000000e+05 -1.03555e+02 -201 1.011579e+05 -1.03579e+02 -202 1.023293e+05 -1.03604e+02 -203 1.035142e+05 -1.03629e+02 -204 1.047129e+05 -1.03655e+02 -205 1.059254e+05 -1.03681e+02 -206 1.071519e+05 -1.03707e+02 -207 1.083927e+05 -1.03734e+02 -208 1.096478e+05 -1.03762e+02 -209 1.109175e+05 -1.03789e+02 -210 1.122018e+05 -1.03818e+02 -211 1.135011e+05 -1.03847e+02 -212 1.148154e+05 -1.03876e+02 -213 1.161449e+05 -1.03906e+02 -214 1.174898e+05 -1.03936e+02 -215 1.188502e+05 -1.03966e+02 -216 1.202264e+05 -1.03998e+02 -217 1.216186e+05 -1.04029e+02 -218 1.230269e+05 -1.04062e+02 -219 1.244515e+05 -1.04094e+02 -220 1.258925e+05 -1.04127e+02 -221 1.273503e+05 -1.04161e+02 -222 1.288250e+05 -1.04195e+02 -223 1.303167e+05 -1.04230e+02 -224 1.318257e+05 -1.04265e+02 -225 1.333521e+05 -1.04301e+02 -226 1.348963e+05 -1.04338e+02 -227 1.364583e+05 -1.04374e+02 -228 1.380384e+05 -1.04412e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -229 1.396368e+05 -1.04450e+02 -230 1.412538e+05 -1.04488e+02 -231 1.428894e+05 -1.04527e+02 -232 1.445440e+05 -1.04567e+02 -233 1.462177e+05 -1.04607e+02 -234 1.479108e+05 -1.04648e+02 -235 1.496236e+05 -1.04689e+02 -236 1.513561e+05 -1.04731e+02 -237 1.531087e+05 -1.04773e+02 -238 1.548817e+05 -1.04816e+02 -239 1.566751e+05 -1.04859e+02 -240 1.584893e+05 -1.04903e+02 -241 1.603245e+05 -1.04948e+02 -242 1.621810e+05 -1.04993e+02 -243 1.640590e+05 -1.05039e+02 -244 1.659587e+05 -1.05085e+02 -245 1.678804e+05 -1.05132e+02 -246 1.698244e+05 -1.05180e+02 -247 1.717908e+05 -1.05228e+02 -248 1.737801e+05 -1.05276e+02 -249 1.757924e+05 -1.05325e+02 -250 1.778279e+05 -1.05375e+02 -251 1.798871e+05 -1.05425e+02 -252 1.819701e+05 -1.05476e+02 -253 1.840772e+05 -1.05528e+02 -254 1.862087e+05 -1.05580e+02 -255 1.883649e+05 -1.05632e+02 -256 1.905461e+05 -1.05686e+02 -257 1.927525e+05 -1.05739e+02 -258 1.949845e+05 -1.05794e+02 -259 1.972423e+05 -1.05848e+02 -260 1.995262e+05 -1.05904e+02 -261 2.018366e+05 -1.05960e+02 -262 2.041738e+05 -1.06016e+02 -263 2.065380e+05 -1.06074e+02 -264 2.089296e+05 -1.06131e+02 -265 2.113489e+05 -1.06190e+02 -266 2.137962e+05 -1.06248e+02 -267 2.162719e+05 -1.06308e+02 -268 2.187762e+05 -1.06368e+02 -269 2.213095e+05 -1.06428e+02 -270 2.238721e+05 -1.06489e+02 -271 2.264644e+05 -1.06551e+02 -272 2.290868e+05 -1.06613e+02 -273 2.317395e+05 -1.06675e+02 -274 2.344229e+05 -1.06738e+02 -275 2.371374e+05 -1.06802e+02 -276 2.398833e+05 -1.06866e+02 -277 2.426610e+05 -1.06931e+02 -278 2.454709e+05 -1.06996e+02 -279 2.483133e+05 -1.07062e+02 -280 2.511886e+05 -1.07128e+02 -281 2.540973e+05 -1.07195e+02 -282 2.570396e+05 -1.07262e+02 -283 2.600160e+05 -1.07330e+02 -284 2.630268e+05 -1.07398e+02 -285 2.660725e+05 -1.07467e+02 -286 2.691535e+05 -1.07536e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -287 2.722701e+05 -1.07606e+02 -288 2.754229e+05 -1.07676e+02 -289 2.786121e+05 -1.07747e+02 -290 2.818383e+05 -1.07818e+02 -291 2.851018e+05 -1.07889e+02 -292 2.884032e+05 -1.07961e+02 -293 2.917427e+05 -1.08034e+02 -294 2.951209e+05 -1.08107e+02 -295 2.985383e+05 -1.08180e+02 -296 3.019952e+05 -1.08254e+02 -297 3.054921e+05 -1.08328e+02 -298 3.090295e+05 -1.08403e+02 -299 3.126079e+05 -1.08478e+02 -300 3.162278e+05 -1.08553e+02 -301 3.198895e+05 -1.08629e+02 -302 3.235937e+05 -1.08705e+02 -303 3.273407e+05 -1.08782e+02 -304 3.311311e+05 -1.08859e+02 -305 3.349654e+05 -1.08937e+02 -306 3.388442e+05 -1.09015e+02 -307 3.427678e+05 -1.09093e+02 -308 3.467369e+05 -1.09172e+02 -309 3.507519e+05 -1.09251e+02 -310 3.548134e+05 -1.09330e+02 -311 3.589219e+05 -1.09410e+02 -312 3.630781e+05 -1.09490e+02 -313 3.672823e+05 -1.09570e+02 -314 3.715352e+05 -1.09651e+02 -315 3.758374e+05 -1.09732e+02 -316 3.801894e+05 -1.09813e+02 -317 3.845918e+05 -1.09895e+02 -318 3.890451e+05 -1.09977e+02 -319 3.935501e+05 -1.10059e+02 -320 3.981072e+05 -1.10142e+02 -321 4.027170e+05 -1.10225e+02 -322 4.073803e+05 -1.10308e+02 -323 4.120975e+05 -1.10392e+02 -324 4.168694e+05 -1.10476e+02 -325 4.216965e+05 -1.10560e+02 -326 4.265795e+05 -1.10644e+02 -327 4.315191e+05 -1.10729e+02 -328 4.365158e+05 -1.10814e+02 -329 4.415704e+05 -1.10899e+02 -330 4.466836e+05 -1.10985e+02 -331 4.518559e+05 -1.11071e+02 -332 4.570882e+05 -1.11157e+02 -333 4.623810e+05 -1.11243e+02 -334 4.677351e+05 -1.11329e+02 -335 4.731513e+05 -1.11416e+02 -336 4.786301e+05 -1.11503e+02 -337 4.841724e+05 -1.11590e+02 -338 4.897788e+05 -1.11677e+02 -339 4.954502e+05 -1.11765e+02 -340 5.011872e+05 -1.11853e+02 -341 5.069907e+05 -1.11941e+02 -342 5.128614e+05 -1.12029e+02 -343 5.188000e+05 -1.12117e+02 -344 5.248075e+05 -1.12206e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -345 5.308844e+05 -1.12295e+02 -346 5.370318e+05 -1.12384e+02 -347 5.432503e+05 -1.12473e+02 -348 5.495409e+05 -1.12562e+02 -349 5.559043e+05 -1.12652e+02 -350 5.623413e+05 -1.12741e+02 -351 5.688529e+05 -1.12831e+02 -352 5.754399e+05 -1.12921e+02 -353 5.821032e+05 -1.13011e+02 -354 5.888437e+05 -1.13102e+02 -355 5.956621e+05 -1.13192e+02 -356 6.025596e+05 -1.13283e+02 -357 6.095369e+05 -1.13374e+02 -358 6.165950e+05 -1.13464e+02 -359 6.237348e+05 -1.13555e+02 -360 6.309573e+05 -1.13646e+02 -361 6.382635e+05 -1.13738e+02 -362 6.456542e+05 -1.13829e+02 -363 6.531306e+05 -1.13920e+02 -364 6.606934e+05 -1.14012e+02 -365 6.683439e+05 -1.14104e+02 -366 6.760830e+05 -1.14195e+02 -367 6.839116e+05 -1.14287e+02 -368 6.918310e+05 -1.14379e+02 -369 6.998420e+05 -1.14471e+02 -370 7.079458e+05 -1.14563e+02 -371 7.161434e+05 -1.14656e+02 -372 7.244360e+05 -1.14748e+02 -373 7.328245e+05 -1.14840e+02 -374 7.413102e+05 -1.14933e+02 -375 7.498942e+05 -1.15025e+02 -376 7.585776e+05 -1.15118e+02 -377 7.673615e+05 -1.15210e+02 -378 7.762471e+05 -1.15303e+02 -379 7.852356e+05 -1.15396e+02 -380 7.943282e+05 -1.15489e+02 -381 8.035261e+05 -1.15582e+02 -382 8.128305e+05 -1.15675e+02 -383 8.222426e+05 -1.15768e+02 -384 8.317638e+05 -1.15861e+02 -385 8.413951e+05 -1.15954e+02 -386 8.511380e+05 -1.16047e+02 -387 8.609938e+05 -1.16140e+02 -388 8.709636e+05 -1.16233e+02 -389 8.810489e+05 -1.16326e+02 -390 8.912509e+05 -1.16419e+02 -391 9.015711e+05 -1.16512e+02 -392 9.120108e+05 -1.16606e+02 -393 9.225714e+05 -1.16699e+02 -394 9.332543e+05 -1.16792e+02 -395 9.440609e+05 -1.16885e+02 -396 9.549926e+05 -1.16978e+02 -397 9.660509e+05 -1.17072e+02 -398 9.772372e+05 -1.17165e+02 -399 9.885531e+05 -1.17258e+02 -400 1.000000e+06 -1.17351e+02 -401 1.011579e+06 -1.17445e+02 -402 1.023293e+06 -1.17538e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -403 1.035142e+06 -1.17631e+02 -404 1.047129e+06 -1.17724e+02 -405 1.059254e+06 -1.17817e+02 -406 1.071519e+06 -1.17910e+02 -407 1.083927e+06 -1.18003e+02 -408 1.096478e+06 -1.18096e+02 -409 1.109175e+06 -1.18189e+02 -410 1.122018e+06 -1.18282e+02 -411 1.135011e+06 -1.18375e+02 -412 1.148154e+06 -1.18468e+02 -413 1.161449e+06 -1.18560e+02 -414 1.174898e+06 -1.18653e+02 -415 1.188502e+06 -1.18746e+02 -416 1.202264e+06 -1.18838e+02 -417 1.216186e+06 -1.18931e+02 -418 1.230269e+06 -1.19023e+02 -419 1.244515e+06 -1.19115e+02 -420 1.258925e+06 -1.19208e+02 -421 1.273503e+06 -1.19300e+02 -422 1.288250e+06 -1.19392e+02 -423 1.303167e+06 -1.19484e+02 -424 1.318257e+06 -1.19576e+02 -425 1.333521e+06 -1.19668e+02 -426 1.348963e+06 -1.19759e+02 -427 1.364583e+06 -1.19851e+02 -428 1.380384e+06 -1.19942e+02 -429 1.396368e+06 -1.20034e+02 -430 1.412538e+06 -1.20125e+02 -431 1.428894e+06 -1.20216e+02 -432 1.445440e+06 -1.20307e+02 -433 1.462177e+06 -1.20398e+02 -434 1.479108e+06 -1.20489e+02 -435 1.496236e+06 -1.20580e+02 -436 1.513561e+06 -1.20670e+02 -437 1.531087e+06 -1.20760e+02 -438 1.548817e+06 -1.20851e+02 -439 1.566751e+06 -1.20941e+02 -440 1.584893e+06 -1.21031e+02 -441 1.603245e+06 -1.21120e+02 -442 1.621810e+06 -1.21210e+02 -443 1.640590e+06 -1.21299e+02 -444 1.659587e+06 -1.21389e+02 -445 1.678804e+06 -1.21478e+02 -446 1.698244e+06 -1.21566e+02 -447 1.717908e+06 -1.21655e+02 -448 1.737801e+06 -1.21744e+02 -449 1.757924e+06 -1.21832e+02 -450 1.778279e+06 -1.21920e+02 -451 1.798871e+06 -1.22008e+02 -452 1.819701e+06 -1.22096e+02 -453 1.840772e+06 -1.22183e+02 -454 1.862087e+06 -1.22270e+02 -455 1.883649e+06 -1.22357e+02 -456 1.905461e+06 -1.22444e+02 -457 1.927525e+06 -1.22531e+02 -458 1.949845e+06 -1.22617e+02 -459 1.972423e+06 -1.22703e+02 -460 1.995262e+06 -1.22789e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -461 2.018366e+06 -1.22875e+02 -462 2.041738e+06 -1.22960e+02 -463 2.065380e+06 -1.23045e+02 -464 2.089296e+06 -1.23130e+02 -465 2.113489e+06 -1.23215e+02 -466 2.137962e+06 -1.23299e+02 -467 2.162719e+06 -1.23383e+02 -468 2.187762e+06 -1.23467e+02 -469 2.213095e+06 -1.23550e+02 -470 2.238721e+06 -1.23633e+02 -471 2.264644e+06 -1.23716e+02 -472 2.290868e+06 -1.23799e+02 -473 2.317395e+06 -1.23881e+02 -474 2.344229e+06 -1.23963e+02 -475 2.371374e+06 -1.24044e+02 -476 2.398833e+06 -1.24125e+02 -477 2.426610e+06 -1.24206e+02 -478 2.454709e+06 -1.24287e+02 -479 2.483133e+06 -1.24367e+02 -480 2.511886e+06 -1.24447e+02 -481 2.540973e+06 -1.24526e+02 -482 2.570396e+06 -1.24606e+02 -483 2.600160e+06 -1.24684e+02 -484 2.630268e+06 -1.24763e+02 -485 2.660725e+06 -1.24841e+02 -486 2.691535e+06 -1.24919e+02 -487 2.722701e+06 -1.24996e+02 -488 2.754229e+06 -1.25073e+02 -489 2.786121e+06 -1.25149e+02 -490 2.818383e+06 -1.25225e+02 -491 2.851018e+06 -1.25301e+02 -492 2.884032e+06 -1.25376e+02 -493 2.917427e+06 -1.25451e+02 -494 2.951209e+06 -1.25526e+02 -495 2.985383e+06 -1.25600e+02 -496 3.019952e+06 -1.25673e+02 -497 3.054921e+06 -1.25746e+02 -498 3.090295e+06 -1.25819e+02 -499 3.126079e+06 -1.25891e+02 -500 3.162278e+06 -1.25963e+02 -501 3.198895e+06 -1.26034e+02 -502 3.235937e+06 -1.26105e+02 -503 3.273407e+06 -1.26175e+02 -504 3.311311e+06 -1.26245e+02 -505 3.349654e+06 -1.26315e+02 -506 3.388442e+06 -1.26384e+02 -507 3.427678e+06 -1.26452e+02 -508 3.467369e+06 -1.26520e+02 -509 3.507519e+06 -1.26587e+02 -510 3.548134e+06 -1.26654e+02 -511 3.589219e+06 -1.26721e+02 -512 3.630781e+06 -1.26787e+02 -513 3.672823e+06 -1.26852e+02 -514 3.715352e+06 -1.26917e+02 -515 3.758374e+06 -1.26981e+02 -516 3.801894e+06 -1.27046e+02 -517 3.845918e+06 -1.27109e+02 -518 3.890451e+06 -1.27172e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -519 3.935501e+06 -1.27234e+02 -520 3.981072e+06 -1.27296e+02 -521 4.027170e+06 -1.27357e+02 -522 4.073803e+06 -1.27418e+02 -523 4.120975e+06 -1.27478e+02 -524 4.168694e+06 -1.27537e+02 -525 4.216965e+06 -1.27596e+02 -526 4.265795e+06 -1.27655e+02 -527 4.315191e+06 -1.27713e+02 -528 4.365158e+06 -1.27770e+02 -529 4.415704e+06 -1.27827e+02 -530 4.466836e+06 -1.27883e+02 -531 4.518559e+06 -1.27938e+02 -532 4.570882e+06 -1.27993e+02 -533 4.623810e+06 -1.28048e+02 -534 4.677351e+06 -1.28102e+02 -535 4.731513e+06 -1.28155e+02 -536 4.786301e+06 -1.28208e+02 -537 4.841724e+06 -1.28260e+02 -538 4.897788e+06 -1.28312e+02 -539 4.954502e+06 -1.28363e+02 -540 5.011872e+06 -1.28413e+02 -541 5.069907e+06 -1.28463e+02 -542 5.128614e+06 -1.28512e+02 -543 5.188000e+06 -1.28561e+02 -544 5.248075e+06 -1.28609e+02 -545 5.308844e+06 -1.28656e+02 -546 5.370318e+06 -1.28703e+02 -547 5.432503e+06 -1.28750e+02 -548 5.495409e+06 -1.28795e+02 -549 5.559043e+06 -1.28841e+02 -550 5.623413e+06 -1.28886e+02 -551 5.688529e+06 -1.28930e+02 -552 5.754399e+06 -1.28973e+02 -553 5.821032e+06 -1.29016e+02 -554 5.888437e+06 -1.29059e+02 -555 5.956621e+06 -1.29101e+02 -556 6.025596e+06 -1.29142e+02 -557 6.095369e+06 -1.29183e+02 -558 6.165950e+06 -1.29223e+02 -559 6.237348e+06 -1.29262e+02 -560 6.309573e+06 -1.29301e+02 -561 6.382635e+06 -1.29339e+02 -562 6.456542e+06 -1.29377e+02 -563 6.531306e+06 -1.29415e+02 -564 6.606934e+06 -1.29451e+02 -565 6.683439e+06 -1.29487e+02 -566 6.760830e+06 -1.29523e+02 -567 6.839116e+06 -1.29558e+02 -568 6.918310e+06 -1.29593e+02 -569 6.998420e+06 -1.29627e+02 -570 7.079458e+06 -1.29661e+02 -571 7.161434e+06 -1.29694e+02 -572 7.244360e+06 -1.29726e+02 -573 7.328245e+06 -1.29759e+02 -574 7.413102e+06 -1.29790e+02 -575 7.498942e+06 -1.29821e+02 -576 7.585776e+06 -1.29851e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -577 7.673615e+06 -1.29881e+02 -578 7.762471e+06 -1.29911e+02 -579 7.852356e+06 -1.29940e+02 -580 7.943282e+06 -1.29968e+02 -581 8.035261e+06 -1.29996e+02 -582 8.128305e+06 -1.30024e+02 -583 8.222426e+06 -1.30051e+02 -584 8.317638e+06 -1.30077e+02 -585 8.413951e+06 -1.30103e+02 -586 8.511380e+06 -1.30128e+02 -587 8.609938e+06 -1.30154e+02 -588 8.709636e+06 -1.30179e+02 -589 8.810489e+06 -1.30203e+02 -590 8.912509e+06 -1.30227e+02 -591 9.015711e+06 -1.30250e+02 -592 9.120108e+06 -1.30273e+02 -593 9.225714e+06 -1.30295e+02 -594 9.332543e+06 -1.30318e+02 -595 9.440609e+06 -1.30339e+02 -596 9.549926e+06 -1.30360e+02 -597 9.660509e+06 -1.30381e+02 -598 9.772372e+06 -1.30402e+02 -599 9.885531e+06 -1.30422e+02 -600 1.000000e+07 -1.30441e+02 -601 1.011579e+07 -1.30461e+02 -602 1.023293e+07 -1.30479e+02 -603 1.035142e+07 -1.30498e+02 -604 1.047129e+07 -1.30515e+02 -605 1.059254e+07 -1.30534e+02 -606 1.071519e+07 -1.30551e+02 -607 1.083927e+07 -1.30568e+02 -608 1.096478e+07 -1.30584e+02 -609 1.109175e+07 -1.30600e+02 -610 1.122018e+07 -1.30616e+02 -611 1.135011e+07 -1.30631e+02 -612 1.148154e+07 -1.30647e+02 -613 1.161449e+07 -1.30662e+02 -614 1.174898e+07 -1.30676e+02 -615 1.188502e+07 -1.30690e+02 -616 1.202264e+07 -1.30704e+02 -617 1.216186e+07 -1.30717e+02 -618 1.230269e+07 -1.30731e+02 -619 1.244515e+07 -1.30744e+02 -620 1.258925e+07 -1.30756e+02 -621 1.273503e+07 -1.30768e+02 -622 1.288250e+07 -1.30780e+02 -623 1.303167e+07 -1.30791e+02 -624 1.318257e+07 -1.30803e+02 -625 1.333521e+07 -1.30814e+02 -626 1.348963e+07 -1.30824e+02 -627 1.364583e+07 -1.30835e+02 -628 1.380384e+07 -1.30845e+02 -629 1.396368e+07 -1.30855e+02 -630 1.412538e+07 -1.30864e+02 -631 1.428894e+07 -1.30874e+02 -632 1.445440e+07 -1.30882e+02 -633 1.462177e+07 -1.30891e+02 -634 1.479108e+07 -1.30900e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -635 1.496236e+07 -1.30908e+02 -636 1.513561e+07 -1.30916e+02 -637 1.531087e+07 -1.30924e+02 -638 1.548817e+07 -1.30931e+02 -639 1.566751e+07 -1.30938e+02 -640 1.584893e+07 -1.30945e+02 -641 1.603245e+07 -1.30952e+02 -642 1.621810e+07 -1.30958e+02 -643 1.640590e+07 -1.30965e+02 -644 1.659587e+07 -1.30971e+02 -645 1.678804e+07 -1.30976e+02 -646 1.698244e+07 -1.30982e+02 -647 1.717908e+07 -1.30987e+02 -648 1.737801e+07 -1.30991e+02 -649 1.757924e+07 -1.30997e+02 -650 1.778279e+07 -1.31001e+02 -651 1.798871e+07 -1.31005e+02 -652 1.819701e+07 -1.31009e+02 -653 1.840772e+07 -1.31013e+02 -654 1.862087e+07 -1.31017e+02 -655 1.883649e+07 -1.31020e+02 -656 1.905461e+07 -1.31024e+02 -657 1.927525e+07 -1.31027e+02 -658 1.949845e+07 -1.31029e+02 -659 1.972423e+07 -1.31032e+02 -660 1.995262e+07 -1.31034e+02 -661 2.018366e+07 -1.31036e+02 -662 2.041738e+07 -1.31038e+02 -663 2.065380e+07 -1.31040e+02 -664 2.089296e+07 -1.31041e+02 -665 2.113489e+07 -1.31043e+02 -666 2.137962e+07 -1.31043e+02 -667 2.162719e+07 -1.31044e+02 -668 2.187762e+07 -1.31045e+02 -669 2.213095e+07 -1.31046e+02 -670 2.238721e+07 -1.31046e+02 -671 2.264644e+07 -1.31045e+02 -672 2.290868e+07 -1.31045e+02 -673 2.317395e+07 -1.31045e+02 -674 2.344229e+07 -1.31044e+02 -675 2.371374e+07 -1.31044e+02 -676 2.398833e+07 -1.31042e+02 -677 2.426610e+07 -1.31041e+02 -678 2.454709e+07 -1.31040e+02 -679 2.483133e+07 -1.31038e+02 -680 2.511886e+07 -1.31036e+02 -681 2.540973e+07 -1.31034e+02 -682 2.570396e+07 -1.31032e+02 -683 2.600160e+07 -1.31029e+02 -684 2.630268e+07 -1.31026e+02 -685 2.660725e+07 -1.31023e+02 -686 2.691535e+07 -1.31020e+02 -687 2.722701e+07 -1.31017e+02 -688 2.754229e+07 -1.31013e+02 -689 2.786121e+07 -1.31009e+02 -690 2.818383e+07 -1.31005e+02 -691 2.851018e+07 -1.31000e+02 -692 2.884032e+07 -1.30996e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -693 2.917427e+07 -1.30991e+02 -694 2.951209e+07 -1.30986e+02 -695 2.985383e+07 -1.30981e+02 -696 3.019952e+07 -1.30975e+02 -697 3.054921e+07 -1.30970e+02 -698 3.090295e+07 -1.30964e+02 -699 3.126079e+07 -1.30958e+02 -700 3.162278e+07 -1.30951e+02 -701 3.198895e+07 -1.30945e+02 -702 3.235937e+07 -1.30938e+02 -703 3.273407e+07 -1.30930e+02 -704 3.311311e+07 -1.30923e+02 -705 3.349654e+07 -1.30915e+02 -706 3.388442e+07 -1.30908e+02 -707 3.427678e+07 -1.30899e+02 -708 3.467369e+07 -1.30891e+02 -709 3.507519e+07 -1.30882e+02 -710 3.548134e+07 -1.30873e+02 -711 3.589219e+07 -1.30864e+02 -712 3.630781e+07 -1.30854e+02 -713 3.672823e+07 -1.30845e+02 -714 3.715352e+07 -1.30835e+02 -715 3.758374e+07 -1.30825e+02 -716 3.801894e+07 -1.30814e+02 -717 3.845918e+07 -1.30803e+02 -718 3.890451e+07 -1.30792e+02 -719 3.935501e+07 -1.30780e+02 -720 3.981072e+07 -1.30769e+02 -721 4.027170e+07 -1.30757e+02 -722 4.073803e+07 -1.30744e+02 -723 4.120975e+07 -1.30731e+02 -724 4.168694e+07 -1.30718e+02 -725 4.216965e+07 -1.30705e+02 -726 4.265795e+07 -1.30692e+02 -727 4.315191e+07 -1.30678e+02 -728 4.365158e+07 -1.30663e+02 -729 4.415704e+07 -1.30648e+02 -730 4.466836e+07 -1.30634e+02 -731 4.518559e+07 -1.30618e+02 -732 4.570882e+07 -1.30603e+02 -733 4.623810e+07 -1.30587e+02 -734 4.677351e+07 -1.30571e+02 -735 4.731513e+07 -1.30554e+02 -736 4.786301e+07 -1.30537e+02 -737 4.841724e+07 -1.30520e+02 -738 4.897788e+07 -1.30502e+02 -739 4.954502e+07 -1.30483e+02 -740 5.011872e+07 -1.30465e+02 -741 5.069907e+07 -1.30446e+02 -742 5.128614e+07 -1.30427e+02 -743 5.188000e+07 -1.30407e+02 -744 5.248075e+07 -1.30387e+02 -745 5.308844e+07 -1.30367e+02 -746 5.370318e+07 -1.30346e+02 -747 5.432503e+07 -1.30325e+02 -748 5.495409e+07 -1.30304e+02 -749 5.559043e+07 -1.30282e+02 -750 5.623413e+07 -1.30259e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -751 5.688529e+07 -1.30237e+02 -752 5.754399e+07 -1.30214e+02 -753 5.821032e+07 -1.30190e+02 -754 5.888437e+07 -1.30166e+02 -755 5.956621e+07 -1.30142e+02 -756 6.025596e+07 -1.30117e+02 -757 6.095369e+07 -1.30091e+02 -758 6.165950e+07 -1.30065e+02 -759 6.237348e+07 -1.30039e+02 -760 6.309573e+07 -1.30012e+02 -761 6.382635e+07 -1.29986e+02 -762 6.456542e+07 -1.29958e+02 -763 6.531306e+07 -1.29930e+02 -764 6.606934e+07 -1.29902e+02 -765 6.683439e+07 -1.29873e+02 -766 6.760830e+07 -1.29843e+02 -767 6.839116e+07 -1.29813e+02 -768 6.918310e+07 -1.29783e+02 -769 6.998420e+07 -1.29752e+02 -770 7.079458e+07 -1.29721e+02 -771 7.161434e+07 -1.29689e+02 -772 7.244360e+07 -1.29657e+02 -773 7.328245e+07 -1.29625e+02 -774 7.413102e+07 -1.29592e+02 -775 7.498942e+07 -1.29558e+02 -776 7.585776e+07 -1.29524e+02 -777 7.673615e+07 -1.29489e+02 -778 7.762471e+07 -1.29454e+02 -779 7.852356e+07 -1.29419e+02 -780 7.943282e+07 -1.29383e+02 -781 8.035261e+07 -1.29346e+02 -782 8.128305e+07 -1.29309e+02 -783 8.222426e+07 -1.29272e+02 -784 8.317638e+07 -1.29234e+02 -785 8.413951e+07 -1.29196e+02 -786 8.511380e+07 -1.29157e+02 -787 8.609938e+07 -1.29118e+02 -788 8.709636e+07 -1.29078e+02 -789 8.810489e+07 -1.29037e+02 -790 8.912509e+07 -1.28996e+02 -791 9.015711e+07 -1.28955e+02 -792 9.120108e+07 -1.28913e+02 -793 9.225714e+07 -1.28871e+02 -794 9.332543e+07 -1.28828e+02 -795 9.440609e+07 -1.28785e+02 -796 9.549926e+07 -1.28742e+02 -797 9.660509e+07 -1.28697e+02 -798 9.772372e+07 -1.28653e+02 -799 9.885531e+07 -1.28607e+02 -800 1.000000e+08 -1.28562e+02 -801 1.011579e+08 -1.28516e+02 -802 1.023293e+08 -1.28470e+02 -803 1.035142e+08 -1.28423e+02 -804 1.047129e+08 -1.28375e+02 -805 1.059254e+08 -1.28328e+02 -806 1.071519e+08 -1.28279e+02 -807 1.083927e+08 -1.28230e+02 -808 1.096478e+08 -1.28182e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -809 1.109175e+08 -1.28132e+02 -810 1.122018e+08 -1.28082e+02 -811 1.135011e+08 -1.28032e+02 -812 1.148154e+08 -1.27981e+02 -813 1.161449e+08 -1.27930e+02 -814 1.174898e+08 -1.27878e+02 -815 1.188502e+08 -1.27826e+02 -816 1.202264e+08 -1.27774e+02 -817 1.216186e+08 -1.27721e+02 -818 1.230269e+08 -1.27668e+02 -819 1.244515e+08 -1.27614e+02 -820 1.258925e+08 -1.27560e+02 -821 1.273503e+08 -1.27506e+02 -822 1.288250e+08 -1.27452e+02 -823 1.303167e+08 -1.27397e+02 -824 1.318257e+08 -1.27341e+02 -825 1.333521e+08 -1.27286e+02 -826 1.348963e+08 -1.27230e+02 -827 1.364583e+08 -1.27174e+02 -828 1.380384e+08 -1.27118e+02 -829 1.396368e+08 -1.27061e+02 -830 1.412538e+08 -1.27004e+02 -831 1.428894e+08 -1.26947e+02 -832 1.445440e+08 -1.26889e+02 -833 1.462177e+08 -1.26831e+02 -834 1.479108e+08 -1.26773e+02 -835 1.496236e+08 -1.26715e+02 -836 1.513561e+08 -1.26656e+02 -837 1.531087e+08 -1.26597e+02 -838 1.548817e+08 -1.26539e+02 -839 1.566751e+08 -1.26479e+02 -840 1.584893e+08 -1.26420e+02 -841 1.603245e+08 -1.26360e+02 -842 1.621810e+08 -1.26301e+02 -843 1.640590e+08 -1.26241e+02 -844 1.659587e+08 -1.26181e+02 -845 1.678804e+08 -1.26121e+02 -846 1.698244e+08 -1.26060e+02 -847 1.717908e+08 -1.26000e+02 -848 1.737801e+08 -1.25940e+02 -849 1.757924e+08 -1.25879e+02 -850 1.778279e+08 -1.25818e+02 -851 1.798871e+08 -1.25758e+02 -852 1.819701e+08 -1.25697e+02 -853 1.840772e+08 -1.25636e+02 -854 1.862087e+08 -1.25575e+02 -855 1.883649e+08 -1.25515e+02 -856 1.905461e+08 -1.25454e+02 -857 1.927525e+08 -1.25393e+02 -858 1.949845e+08 -1.25332e+02 -859 1.972423e+08 -1.25271e+02 -860 1.995262e+08 -1.25211e+02 -861 2.018366e+08 -1.25150e+02 -862 2.041738e+08 -1.25090e+02 -863 2.065380e+08 -1.25029e+02 -864 2.089296e+08 -1.24969e+02 -865 2.113489e+08 -1.24908e+02 -866 2.137962e+08 -1.24849e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -867 2.162719e+08 -1.24788e+02 -868 2.187762e+08 -1.24729e+02 -869 2.213095e+08 -1.24669e+02 -870 2.238721e+08 -1.24609e+02 -871 2.264644e+08 -1.24550e+02 -872 2.290868e+08 -1.24490e+02 -873 2.317395e+08 -1.24431e+02 -874 2.344229e+08 -1.24373e+02 -875 2.371374e+08 -1.24314e+02 -876 2.398833e+08 -1.24257e+02 -877 2.426610e+08 -1.24198e+02 -878 2.454709e+08 -1.24141e+02 -879 2.483133e+08 -1.24084e+02 -880 2.511886e+08 -1.24026e+02 -881 2.540973e+08 -1.23970e+02 -882 2.570396e+08 -1.23914e+02 -883 2.600160e+08 -1.23858e+02 -884 2.630268e+08 -1.23802e+02 -885 2.660725e+08 -1.23746e+02 -886 2.691535e+08 -1.23691e+02 -887 2.722701e+08 -1.23637e+02 -888 2.754229e+08 -1.23583e+02 -889 2.786121e+08 -1.23530e+02 -890 2.818383e+08 -1.23477e+02 -891 2.851018e+08 -1.23424e+02 -892 2.884032e+08 -1.23372e+02 -893 2.917427e+08 -1.23320e+02 -894 2.951209e+08 -1.23269e+02 -895 2.985383e+08 -1.23218e+02 -896 3.019952e+08 -1.23168e+02 -897 3.054921e+08 -1.23119e+02 -898 3.090295e+08 -1.23070e+02 -899 3.126079e+08 -1.23022e+02 -900 3.162278e+08 -1.22974e+02 -901 3.198895e+08 -1.22927e+02 -902 3.235937e+08 -1.22880e+02 -903 3.273407e+08 -1.22835e+02 -904 3.311311e+08 -1.22789e+02 -905 3.349654e+08 -1.22745e+02 -906 3.388442e+08 -1.22701e+02 -907 3.427678e+08 -1.22658e+02 -908 3.467369e+08 -1.22615e+02 -909 3.507519e+08 -1.22574e+02 -910 3.548134e+08 -1.22533e+02 -911 3.589219e+08 -1.22493e+02 -912 3.630781e+08 -1.22454e+02 -913 3.672823e+08 -1.22415e+02 -914 3.715352e+08 -1.22378e+02 -915 3.758374e+08 -1.22341e+02 -916 3.801894e+08 -1.22305e+02 -917 3.845918e+08 -1.22269e+02 -918 3.890451e+08 -1.22235e+02 -919 3.935501e+08 -1.22201e+02 -920 3.981072e+08 -1.22169e+02 -921 4.027170e+08 -1.22137e+02 -922 4.073803e+08 -1.22107e+02 -923 4.120975e+08 -1.22077e+02 -924 4.168694e+08 -1.22048e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -925 4.216965e+08 -1.22020e+02 -926 4.265795e+08 -1.21993e+02 -927 4.315191e+08 -1.21966e+02 -928 4.365158e+08 -1.21942e+02 -929 4.415704e+08 -1.21918e+02 -930 4.466836e+08 -1.21895e+02 -931 4.518559e+08 -1.21873e+02 -932 4.570882e+08 -1.21852e+02 -933 4.623810e+08 -1.21831e+02 -934 4.677351e+08 -1.21813e+02 -935 4.731513e+08 -1.21796e+02 -936 4.786301e+08 -1.21779e+02 -937 4.841724e+08 -1.21763e+02 -938 4.897788e+08 -1.21749e+02 -939 4.954502e+08 -1.21737e+02 -940 5.011872e+08 -1.21725e+02 -941 5.069907e+08 -1.21713e+02 -942 5.128614e+08 -1.21703e+02 -943 5.188000e+08 -1.21694e+02 -944 5.248075e+08 -1.21687e+02 -945 5.308844e+08 -1.21680e+02 -946 5.370318e+08 -1.21675e+02 -947 5.432503e+08 -1.21671e+02 -948 5.495409e+08 -1.21668e+02 -949 5.559043e+08 -1.21666e+02 -950 5.623413e+08 -1.21665e+02 -951 5.688529e+08 -1.21666e+02 -952 5.754399e+08 -1.21668e+02 -953 5.821032e+08 -1.21670e+02 -954 5.888437e+08 -1.21675e+02 -955 5.956621e+08 -1.21680e+02 -956 6.025596e+08 -1.21685e+02 -957 6.095369e+08 -1.21693e+02 -958 6.165950e+08 -1.21702e+02 -959 6.237348e+08 -1.21711e+02 -960 6.309573e+08 -1.21721e+02 -961 6.382635e+08 -1.21732e+02 -962 6.456542e+08 -1.21746e+02 -963 6.531306e+08 -1.21759e+02 -964 6.606934e+08 -1.21773e+02 -965 6.683439e+08 -1.21786e+02 -966 6.760830e+08 -1.21805e+02 -967 6.839116e+08 -1.21822e+02 -968 6.918310e+08 -1.21839e+02 -969 6.998420e+08 -1.21857e+02 -970 7.079458e+08 -1.21875e+02 -971 7.161434e+08 -1.21895e+02 -972 7.244360e+08 -1.21914e+02 -973 7.328245e+08 -1.21933e+02 -974 7.413102e+08 -1.21953e+02 -975 7.498942e+08 -1.21972e+02 -976 7.585776e+08 -1.21992e+02 -977 7.673615e+08 -1.22011e+02 -978 7.762471e+08 -1.22029e+02 -979 7.852356e+08 -1.22046e+02 -980 7.943282e+08 -1.22063e+02 -981 8.035261e+08 -1.22078e+02 -982 8.128305e+08 -1.22090e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -983 8.222426e+08 -1.22101e+02 -984 8.317638e+08 -1.22111e+02 -985 8.413951e+08 -1.22117e+02 -986 8.511380e+08 -1.22119e+02 -987 8.609938e+08 -1.22117e+02 -988 8.709636e+08 -1.22112e+02 -989 8.810489e+08 -1.22101e+02 -990 8.912509e+08 -1.22083e+02 -991 9.015711e+08 -1.22060e+02 -992 9.120108e+08 -1.22027e+02 -993 9.225714e+08 -1.21987e+02 -994 9.332543e+08 -1.21936e+02 -995 9.440609e+08 -1.21874e+02 -996 9.549926e+08 -1.21799e+02 -997 9.660509e+08 -1.21708e+02 -998 9.772372e+08 -1.21602e+02 -999 9.885531e+08 -1.21477e+02 -1000 1.000000e+09 -1.21332e+02 - -CPU time since last call: 0.667 seconds. - -Total CPU time: 0.667 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4852.496094 MB. -Total ngspice program size = 7.686523 MB. -Resident set size = 1.351562 MB. -Shared ngspice pages = 532.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 950.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec deleted file mode 100644 index c835c12..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_26_ESCC_3902003_V2 -0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec deleted file mode 100644 index 2ce1991..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference deleted file mode 100644 index 213e33b..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 10000.000000000000 -80.768850920712381 - 10115.911122238298 -80.771319867824872 - 10233.165783302449 -80.773844935671946 - 10351.779556301763 -80.776427359495798 - 10471.768194855204 -80.779068395920021 - 10593.147635183701 -80.781769363392925 - 10715.933998226712 -80.784531556361145 - 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911926759.84592986 -53.606266048670037 - 922497005.25921738 -67.121177110691448 - 933189771.57332385 -69.976555131547869 - 944006478.94176030 -75.715946589076978 - 954948563.97919667 -82.973063125007315 - 966017479.95226455 -84.283586897316809 - 977214696.97257245 -84.064418221668049 - 988541702.19195735 -90.096181109935543 - 1000000000.0000000 -84.196979231414559 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference deleted file mode 100644 index ab8a555..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 3.15405933 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference deleted file mode 100644 index 0f38e3d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:08:26 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -0 1.000000e+04 -8.07597e+01 -1 1.011579e+04 -8.07619e+01 -2 1.023293e+04 -8.07641e+01 -3 1.035142e+04 -8.07665e+01 -4 1.047129e+04 -8.07688e+01 -5 1.059254e+04 -8.07713e+01 -6 1.071519e+04 -8.07738e+01 -7 1.083927e+04 -8.07763e+01 -8 1.096478e+04 -8.07789e+01 -9 1.109175e+04 -8.07816e+01 -10 1.122018e+04 -8.07843e+01 -11 1.135011e+04 -8.07871e+01 -12 1.148154e+04 -8.07899e+01 -13 1.161449e+04 -8.07928e+01 -14 1.174898e+04 -8.07958e+01 -15 1.188502e+04 -8.07988e+01 -16 1.202264e+04 -8.08019e+01 -17 1.216186e+04 -8.08051e+01 -18 1.230269e+04 -8.08084e+01 -19 1.244515e+04 -8.08117e+01 -20 1.258925e+04 -8.08151e+01 -21 1.273503e+04 -8.08186e+01 -22 1.288250e+04 -8.08221e+01 -23 1.303167e+04 -8.08258e+01 -24 1.318257e+04 -8.08295e+01 -25 1.333521e+04 -8.08333e+01 -26 1.348963e+04 -8.08371e+01 -27 1.364583e+04 -8.08411e+01 -28 1.380384e+04 -8.08452e+01 -29 1.396368e+04 -8.08493e+01 -30 1.412538e+04 -8.08536e+01 -31 1.428894e+04 -8.08579e+01 -32 1.445440e+04 -8.08623e+01 -33 1.462177e+04 -8.08669e+01 -34 1.479108e+04 -8.08715e+01 -35 1.496236e+04 -8.08762e+01 -36 1.513561e+04 -8.08811e+01 -37 1.531087e+04 -8.08860e+01 -38 1.548817e+04 -8.08911e+01 -39 1.566751e+04 -8.08962e+01 -40 1.584893e+04 -8.09015e+01 -41 1.603245e+04 -8.09069e+01 -42 1.621810e+04 -8.09124e+01 -43 1.640590e+04 -8.09181e+01 -44 1.659587e+04 -8.09238e+01 -45 1.678804e+04 -8.09297e+01 -46 1.698244e+04 -8.09358e+01 -47 1.717908e+04 -8.09419e+01 -48 1.737801e+04 -8.09482e+01 -49 1.757924e+04 -8.09546e+01 -50 1.778279e+04 -8.09612e+01 -51 1.798871e+04 -8.09679e+01 -52 1.819701e+04 -8.09747e+01 -53 1.840772e+04 -8.09817e+01 -54 1.862087e+04 -8.09889e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -55 1.883649e+04 -8.09962e+01 -56 1.905461e+04 -8.10036e+01 -57 1.927525e+04 -8.10112e+01 -58 1.949845e+04 -8.10190e+01 -59 1.972423e+04 -8.10270e+01 -60 1.995262e+04 -8.10351e+01 -61 2.018366e+04 -8.10434e+01 -62 2.041738e+04 -8.10519e+01 -63 2.065380e+04 -8.10605e+01 -64 2.089296e+04 -8.10694e+01 -65 2.113489e+04 -8.10784e+01 -66 2.137962e+04 -8.10876e+01 -67 2.162719e+04 -8.10970e+01 -68 2.187762e+04 -8.11066e+01 -69 2.213095e+04 -8.11164e+01 -70 2.238721e+04 -8.11264e+01 -71 2.264644e+04 -8.11366e+01 -72 2.290868e+04 -8.11471e+01 -73 2.317395e+04 -8.11577e+01 -74 2.344229e+04 -8.11686e+01 -75 2.371374e+04 -8.11797e+01 -76 2.398833e+04 -8.11910e+01 -77 2.426610e+04 -8.12026e+01 -78 2.454709e+04 -8.12144e+01 -79 2.483133e+04 -8.12264e+01 -80 2.511886e+04 -8.12387e+01 -81 2.540973e+04 -8.12513e+01 -82 2.570396e+04 -8.12640e+01 -83 2.600160e+04 -8.12771e+01 -84 2.630268e+04 -8.12904e+01 -85 2.660725e+04 -8.13040e+01 -86 2.691535e+04 -8.13178e+01 -87 2.722701e+04 -8.13320e+01 -88 2.754229e+04 -8.13464e+01 -89 2.786121e+04 -8.13611e+01 -90 2.818383e+04 -8.13761e+01 -91 2.851018e+04 -8.13914e+01 -92 2.884032e+04 -8.14070e+01 -93 2.917427e+04 -8.14228e+01 -94 2.951209e+04 -8.14391e+01 -95 2.985383e+04 -8.14556e+01 -96 3.019952e+04 -8.14724e+01 -97 3.054921e+04 -8.14896e+01 -98 3.090295e+04 -8.15071e+01 -99 3.126079e+04 -8.15249e+01 -100 3.162278e+04 -8.15431e+01 -101 3.198895e+04 -8.15616e+01 -102 3.235937e+04 -8.15804e+01 -103 3.273407e+04 -8.15996e+01 -104 3.311311e+04 -8.16192e+01 -105 3.349654e+04 -8.16392e+01 -106 3.388442e+04 -8.16595e+01 -107 3.427678e+04 -8.16802e+01 -108 3.467369e+04 -8.17012e+01 -109 3.507519e+04 -8.17227e+01 -110 3.548134e+04 -8.17445e+01 -111 3.589219e+04 -8.17668e+01 -112 3.630781e+04 -8.17894e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -113 3.672823e+04 -8.18124e+01 -114 3.715352e+04 -8.18359e+01 -115 3.758374e+04 -8.18598e+01 -116 3.801894e+04 -8.18841e+01 -117 3.845918e+04 -8.19088e+01 -118 3.890451e+04 -8.19339e+01 -119 3.935501e+04 -8.19595e+01 -120 3.981072e+04 -8.19855e+01 -121 4.027170e+04 -8.20120e+01 -122 4.073803e+04 -8.20389e+01 -123 4.120975e+04 -8.20663e+01 -124 4.168694e+04 -8.20941e+01 -125 4.216965e+04 -8.21224e+01 -126 4.265795e+04 -8.21512e+01 -127 4.315191e+04 -8.21804e+01 -128 4.365158e+04 -8.22102e+01 -129 4.415704e+04 -8.22404e+01 -130 4.466836e+04 -8.22711e+01 -131 4.518559e+04 -8.23023e+01 -132 4.570882e+04 -8.23339e+01 -133 4.623810e+04 -8.23661e+01 -134 4.677351e+04 -8.23988e+01 -135 4.731513e+04 -8.24320e+01 -136 4.786301e+04 -8.24657e+01 -137 4.841724e+04 -8.24999e+01 -138 4.897788e+04 -8.25347e+01 -139 4.954502e+04 -8.25699e+01 -140 5.011872e+04 -8.26057e+01 -141 5.069907e+04 -8.26420e+01 -142 5.128614e+04 -8.26789e+01 -143 5.188000e+04 -8.27163e+01 -144 5.248075e+04 -8.27542e+01 -145 5.308844e+04 -8.27927e+01 -146 5.370318e+04 -8.28317e+01 -147 5.432503e+04 -8.28713e+01 -148 5.495409e+04 -8.29114e+01 -149 5.559043e+04 -8.29521e+01 -150 5.623413e+04 -8.29934e+01 -151 5.688529e+04 -8.30352e+01 -152 5.754399e+04 -8.30775e+01 -153 5.821032e+04 -8.31204e+01 -154 5.888437e+04 -8.31639e+01 -155 5.956621e+04 -8.32080e+01 -156 6.025596e+04 -8.32526e+01 -157 6.095369e+04 -8.32978e+01 -158 6.165950e+04 -8.33435e+01 -159 6.237348e+04 -8.33898e+01 -160 6.309573e+04 -8.34367e+01 -161 6.382635e+04 -8.34842e+01 -162 6.456542e+04 -8.35323e+01 -163 6.531306e+04 -8.35809e+01 -164 6.606934e+04 -8.36301e+01 -165 6.683439e+04 -8.36799e+01 -166 6.760830e+04 -8.37302e+01 -167 6.839116e+04 -8.37811e+01 -168 6.918310e+04 -8.38326e+01 -169 6.998420e+04 -8.38847e+01 -170 7.079458e+04 -8.39373e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -171 7.161434e+04 -8.39906e+01 -172 7.244360e+04 -8.40443e+01 -173 7.328245e+04 -8.40987e+01 -174 7.413102e+04 -8.41536e+01 -175 7.498942e+04 -8.42091e+01 -176 7.585776e+04 -8.42652e+01 -177 7.673615e+04 -8.43218e+01 -178 7.762471e+04 -8.43790e+01 -179 7.852356e+04 -8.44368e+01 -180 7.943282e+04 -8.44951e+01 -181 8.035261e+04 -8.45540e+01 -182 8.128305e+04 -8.46134e+01 -183 8.222426e+04 -8.46734e+01 -184 8.317638e+04 -8.47339e+01 -185 8.413951e+04 -8.47950e+01 -186 8.511380e+04 -8.48566e+01 -187 8.609938e+04 -8.49188e+01 -188 8.709636e+04 -8.49815e+01 -189 8.810489e+04 -8.50447e+01 -190 8.912509e+04 -8.51085e+01 -191 9.015711e+04 -8.51728e+01 -192 9.120108e+04 -8.52376e+01 -193 9.225714e+04 -8.53030e+01 -194 9.332543e+04 -8.53688e+01 -195 9.440609e+04 -8.54352e+01 -196 9.549926e+04 -8.55021e+01 -197 9.660509e+04 -8.55695e+01 -198 9.772372e+04 -8.56374e+01 -199 9.885531e+04 -8.57058e+01 -200 1.000000e+05 -8.57747e+01 -201 1.011579e+05 -8.58441e+01 -202 1.023293e+05 -8.59139e+01 -203 1.035142e+05 -8.59843e+01 -204 1.047129e+05 -8.60551e+01 -205 1.059254e+05 -8.61264e+01 -206 1.071519e+05 -8.61982e+01 -207 1.083927e+05 -8.62704e+01 -208 1.096478e+05 -8.63431e+01 -209 1.109175e+05 -8.64162e+01 -210 1.122018e+05 -8.64898e+01 -211 1.135011e+05 -8.65638e+01 -212 1.148154e+05 -8.66383e+01 -213 1.161449e+05 -8.67131e+01 -214 1.174898e+05 -8.67885e+01 -215 1.188502e+05 -8.68642e+01 -216 1.202264e+05 -8.69404e+01 -217 1.216186e+05 -8.70169e+01 -218 1.230269e+05 -8.70939e+01 -219 1.244515e+05 -8.71713e+01 -220 1.258925e+05 -8.72491e+01 -221 1.273503e+05 -8.73272e+01 -222 1.288250e+05 -8.74058e+01 -223 1.303167e+05 -8.74847e+01 -224 1.318257e+05 -8.75641e+01 -225 1.333521e+05 -8.76437e+01 -226 1.348963e+05 -8.77238e+01 -227 1.364583e+05 -8.78042e+01 -228 1.380384e+05 -8.78850e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -229 1.396368e+05 -8.79661e+01 -230 1.412538e+05 -8.80476e+01 -231 1.428894e+05 -8.81294e+01 -232 1.445440e+05 -8.82115e+01 -233 1.462177e+05 -8.82940e+01 -234 1.479108e+05 -8.83768e+01 -235 1.496236e+05 -8.84599e+01 -236 1.513561e+05 -8.85433e+01 -237 1.531087e+05 -8.86271e+01 -238 1.548817e+05 -8.87111e+01 -239 1.566751e+05 -8.87955e+01 -240 1.584893e+05 -8.88802e+01 -241 1.603245e+05 -8.89651e+01 -242 1.621810e+05 -8.90503e+01 -243 1.640590e+05 -8.91358e+01 -244 1.659587e+05 -8.92216e+01 -245 1.678804e+05 -8.93077e+01 -246 1.698244e+05 -8.93940e+01 -247 1.717908e+05 -8.94806e+01 -248 1.737801e+05 -8.95674e+01 -249 1.757924e+05 -8.96545e+01 -250 1.778279e+05 -8.97418e+01 -251 1.798871e+05 -8.98294e+01 -252 1.819701e+05 -8.99173e+01 -253 1.840772e+05 -9.00053e+01 -254 1.862087e+05 -9.00937e+01 -255 1.883649e+05 -9.01822e+01 -256 1.905461e+05 -9.02710e+01 -257 1.927525e+05 -9.03599e+01 -258 1.949845e+05 -9.04491e+01 -259 1.972423e+05 -9.05385e+01 -260 1.995262e+05 -9.06281e+01 -261 2.018366e+05 -9.07179e+01 -262 2.041738e+05 -9.08079e+01 -263 2.065380e+05 -9.08981e+01 -264 2.089296e+05 -9.09885e+01 -265 2.113489e+05 -9.10790e+01 -266 2.137962e+05 -9.11698e+01 -267 2.162719e+05 -9.12607e+01 -268 2.187762e+05 -9.13518e+01 -269 2.213095e+05 -9.14431e+01 -270 2.238721e+05 -9.15346e+01 -271 2.264644e+05 -9.16262e+01 -272 2.290868e+05 -9.17180e+01 -273 2.317395e+05 -9.18099e+01 -274 2.344229e+05 -9.19020e+01 -275 2.371374e+05 -9.19943e+01 -276 2.398833e+05 -9.20867e+01 -277 2.426610e+05 -9.21792e+01 -278 2.454709e+05 -9.22719e+01 -279 2.483133e+05 -9.23648e+01 -280 2.511886e+05 -9.24577e+01 -281 2.540973e+05 -9.25508e+01 -282 2.570396e+05 -9.26440e+01 -283 2.600160e+05 -9.27374e+01 -284 2.630268e+05 -9.28308e+01 -285 2.660725e+05 -9.29244e+01 -286 2.691535e+05 -9.30181e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -287 2.722701e+05 -9.31120e+01 -288 2.754229e+05 -9.32059e+01 -289 2.786121e+05 -9.32999e+01 -290 2.818383e+05 -9.33941e+01 -291 2.851018e+05 -9.34884e+01 -292 2.884032e+05 -9.35827e+01 -293 2.917427e+05 -9.36772e+01 -294 2.951209e+05 -9.37718e+01 -295 2.985383e+05 -9.38664e+01 -296 3.019952e+05 -9.39612e+01 -297 3.054921e+05 -9.40560e+01 -298 3.090295e+05 -9.41509e+01 -299 3.126079e+05 -9.42459e+01 -300 3.162278e+05 -9.43410e+01 -301 3.198895e+05 -9.44362e+01 -302 3.235937e+05 -9.45314e+01 -303 3.273407e+05 -9.46268e+01 -304 3.311311e+05 -9.47221e+01 -305 3.349654e+05 -9.48176e+01 -306 3.388442e+05 -9.49132e+01 -307 3.427678e+05 -9.50088e+01 -308 3.467369e+05 -9.51045e+01 -309 3.507519e+05 -9.52002e+01 -310 3.548134e+05 -9.52960e+01 -311 3.589219e+05 -9.53919e+01 -312 3.630781e+05 -9.54878e+01 -313 3.672823e+05 -9.55837e+01 -314 3.715352e+05 -9.56797e+01 -315 3.758374e+05 -9.57758e+01 -316 3.801894e+05 -9.58719e+01 -317 3.845918e+05 -9.59681e+01 -318 3.890451e+05 -9.60643e+01 -319 3.935501e+05 -9.61605e+01 -320 3.981072e+05 -9.62568e+01 -321 4.027170e+05 -9.63532e+01 -322 4.073803e+05 -9.64495e+01 -323 4.120975e+05 -9.65459e+01 -324 4.168694e+05 -9.66423e+01 -325 4.216965e+05 -9.67388e+01 -326 4.265795e+05 -9.68353e+01 -327 4.315191e+05 -9.69318e+01 -328 4.365158e+05 -9.70284e+01 -329 4.415704e+05 -9.71250e+01 -330 4.466836e+05 -9.72216e+01 -331 4.518559e+05 -9.73183e+01 -332 4.570882e+05 -9.74149e+01 -333 4.623810e+05 -9.75116e+01 -334 4.677351e+05 -9.76083e+01 -335 4.731513e+05 -9.77050e+01 -336 4.786301e+05 -9.78017e+01 -337 4.841724e+05 -9.78984e+01 -338 4.897788e+05 -9.79951e+01 -339 4.954502e+05 -9.80918e+01 -340 5.011872e+05 -9.81885e+01 -341 5.069907e+05 -9.82853e+01 -342 5.128614e+05 -9.83820e+01 -343 5.188000e+05 -9.84788e+01 -344 5.248075e+05 -9.85757e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -345 5.308844e+05 -9.86724e+01 -346 5.370318e+05 -9.87691e+01 -347 5.432503e+05 -9.88659e+01 -348 5.495409e+05 -9.89626e+01 -349 5.559043e+05 -9.90593e+01 -350 5.623413e+05 -9.91560e+01 -351 5.688529e+05 -9.92527e+01 -352 5.754399e+05 -9.93494e+01 -353 5.821032e+05 -9.94461e+01 -354 5.888437e+05 -9.95428e+01 -355 5.956621e+05 -9.96396e+01 -356 6.025596e+05 -9.97362e+01 -357 6.095369e+05 -9.98328e+01 -358 6.165950e+05 -9.99293e+01 -359 6.237348e+05 -1.00026e+02 -360 6.309573e+05 -1.00122e+02 -361 6.382635e+05 -1.00219e+02 -362 6.456542e+05 -1.00315e+02 -363 6.531306e+05 -1.00412e+02 -364 6.606934e+05 -1.00508e+02 -365 6.683439e+05 -1.00605e+02 -366 6.760830e+05 -1.00701e+02 -367 6.839116e+05 -1.00797e+02 -368 6.918310e+05 -1.00894e+02 -369 6.998420e+05 -1.00990e+02 -370 7.079458e+05 -1.01086e+02 -371 7.161434e+05 -1.01182e+02 -372 7.244360e+05 -1.01278e+02 -373 7.328245e+05 -1.01374e+02 -374 7.413102e+05 -1.01470e+02 -375 7.498942e+05 -1.01566e+02 -376 7.585776e+05 -1.01662e+02 -377 7.673615e+05 -1.01758e+02 -378 7.762471e+05 -1.01854e+02 -379 7.852356e+05 -1.01949e+02 -380 7.943282e+05 -1.02045e+02 -381 8.035261e+05 -1.02140e+02 -382 8.128305e+05 -1.02236e+02 -383 8.222426e+05 -1.02331e+02 -384 8.317638e+05 -1.02427e+02 -385 8.413951e+05 -1.02522e+02 -386 8.511380e+05 -1.02617e+02 -387 8.609938e+05 -1.02712e+02 -388 8.709636e+05 -1.02807e+02 -389 8.810489e+05 -1.02902e+02 -390 8.912509e+05 -1.02997e+02 -391 9.015711e+05 -1.03092e+02 -392 9.120108e+05 -1.03187e+02 -393 9.225714e+05 -1.03281e+02 -394 9.332543e+05 -1.03376e+02 -395 9.440609e+05 -1.03470e+02 -396 9.549926e+05 -1.03564e+02 -397 9.660509e+05 -1.03659e+02 -398 9.772372e+05 -1.03753e+02 -399 9.885531e+05 -1.03847e+02 -400 1.000000e+06 -1.03940e+02 -401 1.011579e+06 -1.04034e+02 -402 1.023293e+06 -1.04128e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -403 1.035142e+06 -1.04221e+02 -404 1.047129e+06 -1.04315e+02 -405 1.059254e+06 -1.04408e+02 -406 1.071519e+06 -1.04501e+02 -407 1.083927e+06 -1.04594e+02 -408 1.096478e+06 -1.04687e+02 -409 1.109175e+06 -1.04780e+02 -410 1.122018e+06 -1.04872e+02 -411 1.135011e+06 -1.04965e+02 -412 1.148154e+06 -1.05057e+02 -413 1.161449e+06 -1.05149e+02 -414 1.174898e+06 -1.05241e+02 -415 1.188502e+06 -1.05333e+02 -416 1.202264e+06 -1.05424e+02 -417 1.216186e+06 -1.05516e+02 -418 1.230269e+06 -1.05607e+02 -419 1.244515e+06 -1.05698e+02 -420 1.258925e+06 -1.05789e+02 -421 1.273503e+06 -1.05880e+02 -422 1.288250e+06 -1.05971e+02 -423 1.303167e+06 -1.06061e+02 -424 1.318257e+06 -1.06151e+02 -425 1.333521e+06 -1.06242e+02 -426 1.348963e+06 -1.06331e+02 -427 1.364583e+06 -1.06421e+02 -428 1.380384e+06 -1.06510e+02 -429 1.396368e+06 -1.06600e+02 -430 1.412538e+06 -1.06689e+02 -431 1.428894e+06 -1.06777e+02 -432 1.445440e+06 -1.06866e+02 -433 1.462177e+06 -1.06954e+02 -434 1.479108e+06 -1.07043e+02 -435 1.496236e+06 -1.07130e+02 -436 1.513561e+06 -1.07218e+02 -437 1.531087e+06 -1.07305e+02 -438 1.548817e+06 -1.07392e+02 -439 1.566751e+06 -1.07479e+02 -440 1.584893e+06 -1.07566e+02 -441 1.603245e+06 -1.07652e+02 -442 1.621810e+06 -1.07738e+02 -443 1.640590e+06 -1.07824e+02 -444 1.659587e+06 -1.07910e+02 -445 1.678804e+06 -1.07995e+02 -446 1.698244e+06 -1.08080e+02 -447 1.717908e+06 -1.08165e+02 -448 1.737801e+06 -1.08249e+02 -449 1.757924e+06 -1.08333e+02 -450 1.778279e+06 -1.08417e+02 -451 1.798871e+06 -1.08500e+02 -452 1.819701e+06 -1.08584e+02 -453 1.840772e+06 -1.08666e+02 -454 1.862087e+06 -1.08749e+02 -455 1.883649e+06 -1.08831e+02 -456 1.905461e+06 -1.08913e+02 -457 1.927525e+06 -1.08994e+02 -458 1.949845e+06 -1.09075e+02 -459 1.972423e+06 -1.09156e+02 -460 1.995262e+06 -1.09237e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -461 2.018366e+06 -1.09317e+02 -462 2.041738e+06 -1.09396e+02 -463 2.065380e+06 -1.09476e+02 -464 2.089296e+06 -1.09555e+02 -465 2.113489e+06 -1.09633e+02 -466 2.137962e+06 -1.09711e+02 -467 2.162719e+06 -1.09789e+02 -468 2.187762e+06 -1.09866e+02 -469 2.213095e+06 -1.09943e+02 -470 2.238721e+06 -1.10020e+02 -471 2.264644e+06 -1.10096e+02 -472 2.290868e+06 -1.10172e+02 -473 2.317395e+06 -1.10247e+02 -474 2.344229e+06 -1.10322e+02 -475 2.371374e+06 -1.10396e+02 -476 2.398833e+06 -1.10470e+02 -477 2.426610e+06 -1.10544e+02 -478 2.454709e+06 -1.10617e+02 -479 2.483133e+06 -1.10689e+02 -480 2.511886e+06 -1.10761e+02 -481 2.540973e+06 -1.10833e+02 -482 2.570396e+06 -1.10904e+02 -483 2.600160e+06 -1.10975e+02 -484 2.630268e+06 -1.11045e+02 -485 2.660725e+06 -1.11115e+02 -486 2.691535e+06 -1.11184e+02 -487 2.722701e+06 -1.11253e+02 -488 2.754229e+06 -1.11321e+02 -489 2.786121e+06 -1.11389e+02 -490 2.818383e+06 -1.11456e+02 -491 2.851018e+06 -1.11523e+02 -492 2.884032e+06 -1.11589e+02 -493 2.917427e+06 -1.11654e+02 -494 2.951209e+06 -1.11719e+02 -495 2.985383e+06 -1.11784e+02 -496 3.019952e+06 -1.11848e+02 -497 3.054921e+06 -1.11912e+02 -498 3.090295e+06 -1.11974e+02 -499 3.126079e+06 -1.12037e+02 -500 3.162278e+06 -1.12099e+02 -501 3.198895e+06 -1.12160e+02 -502 3.235937e+06 -1.12221e+02 -503 3.273407e+06 -1.12281e+02 -504 3.311311e+06 -1.12340e+02 -505 3.349654e+06 -1.12399e+02 -506 3.388442e+06 -1.12458e+02 -507 3.427678e+06 -1.12516e+02 -508 3.467369e+06 -1.12573e+02 -509 3.507519e+06 -1.12630e+02 -510 3.548134e+06 -1.12686e+02 -511 3.589219e+06 -1.12741e+02 -512 3.630781e+06 -1.12796e+02 -513 3.672823e+06 -1.12850e+02 -514 3.715352e+06 -1.12904e+02 -515 3.758374e+06 -1.12957e+02 -516 3.801894e+06 -1.13010e+02 -517 3.845918e+06 -1.13062e+02 -518 3.890451e+06 -1.13113e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -519 3.935501e+06 -1.13164e+02 -520 3.981072e+06 -1.13214e+02 -521 4.027170e+06 -1.13263e+02 -522 4.073803e+06 -1.13312e+02 -523 4.120975e+06 -1.13361e+02 -524 4.168694e+06 -1.13408e+02 -525 4.216965e+06 -1.13455e+02 -526 4.265795e+06 -1.13502e+02 -527 4.315191e+06 -1.13548e+02 -528 4.365158e+06 -1.13593e+02 -529 4.415704e+06 -1.13638e+02 -530 4.466836e+06 -1.13682e+02 -531 4.518559e+06 -1.13725e+02 -532 4.570882e+06 -1.13768e+02 -533 4.623810e+06 -1.13810e+02 -534 4.677351e+06 -1.13852e+02 -535 4.731513e+06 -1.13893e+02 -536 4.786301e+06 -1.13933e+02 -537 4.841724e+06 -1.13973e+02 -538 4.897788e+06 -1.14012e+02 -539 4.954502e+06 -1.14051e+02 -540 5.011872e+06 -1.14089e+02 -541 5.069907e+06 -1.14126e+02 -542 5.128614e+06 -1.14163e+02 -543 5.188000e+06 -1.14199e+02 -544 5.248075e+06 -1.14234e+02 -545 5.308844e+06 -1.14270e+02 -546 5.370318e+06 -1.14304e+02 -547 5.432503e+06 -1.14338e+02 -548 5.495409e+06 -1.14371e+02 -549 5.559043e+06 -1.14404e+02 -550 5.623413e+06 -1.14436e+02 -551 5.688529e+06 -1.14467e+02 -552 5.754399e+06 -1.14498e+02 -553 5.821032e+06 -1.14528e+02 -554 5.888437e+06 -1.14558e+02 -555 5.956621e+06 -1.14587e+02 -556 6.025596e+06 -1.14616e+02 -557 6.095369e+06 -1.14644e+02 -558 6.165950e+06 -1.14671e+02 -559 6.237348e+06 -1.14698e+02 -560 6.309573e+06 -1.14725e+02 -561 6.382635e+06 -1.14751e+02 -562 6.456542e+06 -1.14776e+02 -563 6.531306e+06 -1.14801e+02 -564 6.606934e+06 -1.14825e+02 -565 6.683439e+06 -1.14849e+02 -566 6.760830e+06 -1.14872e+02 -567 6.839116e+06 -1.14894e+02 -568 6.918310e+06 -1.14916e+02 -569 6.998420e+06 -1.14938e+02 -570 7.079458e+06 -1.14959e+02 -571 7.161434e+06 -1.14979e+02 -572 7.244360e+06 -1.14999e+02 -573 7.328245e+06 -1.15019e+02 -574 7.413102e+06 -1.15038e+02 -575 7.498942e+06 -1.15056e+02 -576 7.585776e+06 -1.15074e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -577 7.673615e+06 -1.15092e+02 -578 7.762471e+06 -1.15109e+02 -579 7.852356e+06 -1.15125e+02 -580 7.943282e+06 -1.15141e+02 -581 8.035261e+06 -1.15156e+02 -582 8.128305e+06 -1.15171e+02 -583 8.222426e+06 -1.15186e+02 -584 8.317638e+06 -1.15200e+02 -585 8.413951e+06 -1.15214e+02 -586 8.511380e+06 -1.15227e+02 -587 8.609938e+06 -1.15239e+02 -588 8.709636e+06 -1.15251e+02 -589 8.810489e+06 -1.15263e+02 -590 8.912509e+06 -1.15274e+02 -591 9.015711e+06 -1.15285e+02 -592 9.120108e+06 -1.15295e+02 -593 9.225714e+06 -1.15305e+02 -594 9.332543e+06 -1.15315e+02 -595 9.440609e+06 -1.15324e+02 -596 9.549926e+06 -1.15332e+02 -597 9.660509e+06 -1.15340e+02 -598 9.772372e+06 -1.15348e+02 -599 9.885531e+06 -1.15355e+02 -600 1.000000e+07 -1.15362e+02 -601 1.011579e+07 -1.15368e+02 -602 1.023293e+07 -1.15374e+02 -603 1.035142e+07 -1.15379e+02 -604 1.047129e+07 -1.15384e+02 -605 1.059254e+07 -1.15389e+02 -606 1.071519e+07 -1.15393e+02 -607 1.083927e+07 -1.15397e+02 -608 1.096478e+07 -1.15400e+02 -609 1.109175e+07 -1.15403e+02 -610 1.122018e+07 -1.15406e+02 -611 1.135011e+07 -1.15408e+02 -612 1.148154e+07 -1.15410e+02 -613 1.161449e+07 -1.15411e+02 -614 1.174898e+07 -1.15412e+02 -615 1.188502e+07 -1.15412e+02 -616 1.202264e+07 -1.15412e+02 -617 1.216186e+07 -1.15412e+02 -618 1.230269e+07 -1.15411e+02 -619 1.244515e+07 -1.15410e+02 -620 1.258925e+07 -1.15408e+02 -621 1.273503e+07 -1.15406e+02 -622 1.288250e+07 -1.15404e+02 -623 1.303167e+07 -1.15401e+02 -624 1.318257e+07 -1.15398e+02 -625 1.333521e+07 -1.15395e+02 -626 1.348963e+07 -1.15391e+02 -627 1.364583e+07 -1.15386e+02 -628 1.380384e+07 -1.15382e+02 -629 1.396368e+07 -1.15376e+02 -630 1.412538e+07 -1.15371e+02 -631 1.428894e+07 -1.15365e+02 -632 1.445440e+07 -1.15359e+02 -633 1.462177e+07 -1.15352e+02 -634 1.479108e+07 -1.15345e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -635 1.496236e+07 -1.15338e+02 -636 1.513561e+07 -1.15330e+02 -637 1.531087e+07 -1.15322e+02 -638 1.548817e+07 -1.15313e+02 -639 1.566751e+07 -1.15304e+02 -640 1.584893e+07 -1.15295e+02 -641 1.603245e+07 -1.15285e+02 -642 1.621810e+07 -1.15275e+02 -643 1.640590e+07 -1.15264e+02 -644 1.659587e+07 -1.15254e+02 -645 1.678804e+07 -1.15242e+02 -646 1.698244e+07 -1.15231e+02 -647 1.717908e+07 -1.15219e+02 -648 1.737801e+07 -1.15207e+02 -649 1.757924e+07 -1.15194e+02 -650 1.778279e+07 -1.15181e+02 -651 1.798871e+07 -1.15168e+02 -652 1.819701e+07 -1.15154e+02 -653 1.840772e+07 -1.15140e+02 -654 1.862087e+07 -1.15125e+02 -655 1.883649e+07 -1.15110e+02 -656 1.905461e+07 -1.15095e+02 -657 1.927525e+07 -1.15080e+02 -658 1.949845e+07 -1.15064e+02 -659 1.972423e+07 -1.15048e+02 -660 1.995262e+07 -1.15031e+02 -661 2.018366e+07 -1.15014e+02 -662 2.041738e+07 -1.14997e+02 -663 2.065380e+07 -1.14980e+02 -664 2.089296e+07 -1.14962e+02 -665 2.113489e+07 -1.14944e+02 -666 2.137962e+07 -1.14925e+02 -667 2.162719e+07 -1.14906e+02 -668 2.187762e+07 -1.14887e+02 -669 2.213095e+07 -1.14868e+02 -670 2.238721e+07 -1.14848e+02 -671 2.264644e+07 -1.14828e+02 -672 2.290868e+07 -1.14808e+02 -673 2.317395e+07 -1.14787e+02 -674 2.344229e+07 -1.14767e+02 -675 2.371374e+07 -1.14745e+02 -676 2.398833e+07 -1.14724e+02 -677 2.426610e+07 -1.14702e+02 -678 2.454709e+07 -1.14681e+02 -679 2.483133e+07 -1.14658e+02 -680 2.511886e+07 -1.14636e+02 -681 2.540973e+07 -1.14614e+02 -682 2.570396e+07 -1.14591e+02 -683 2.600160e+07 -1.14568e+02 -684 2.630268e+07 -1.14544e+02 -685 2.660725e+07 -1.14521e+02 -686 2.691535e+07 -1.14497e+02 -687 2.722701e+07 -1.14474e+02 -688 2.754229e+07 -1.14450e+02 -689 2.786121e+07 -1.14426e+02 -690 2.818383e+07 -1.14401e+02 -691 2.851018e+07 -1.14377e+02 -692 2.884032e+07 -1.14352e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -693 2.917427e+07 -1.14328e+02 -694 2.951209e+07 -1.14303e+02 -695 2.985383e+07 -1.14278e+02 -696 3.019952e+07 -1.14253e+02 -697 3.054921e+07 -1.14228e+02 -698 3.090295e+07 -1.14203e+02 -699 3.126079e+07 -1.14178e+02 -700 3.162278e+07 -1.14153e+02 -701 3.198895e+07 -1.14127e+02 -702 3.235937e+07 -1.14102e+02 -703 3.273407e+07 -1.14077e+02 -704 3.311311e+07 -1.14052e+02 -705 3.349654e+07 -1.14026e+02 -706 3.388442e+07 -1.14001e+02 -707 3.427678e+07 -1.13976e+02 -708 3.467369e+07 -1.13951e+02 -709 3.507519e+07 -1.13926e+02 -710 3.548134e+07 -1.13901e+02 -711 3.589219e+07 -1.13877e+02 -712 3.630781e+07 -1.13852e+02 -713 3.672823e+07 -1.13828e+02 -714 3.715352e+07 -1.13804e+02 -715 3.758374e+07 -1.13780e+02 -716 3.801894e+07 -1.13756e+02 -717 3.845918e+07 -1.13732e+02 -718 3.890451e+07 -1.13709e+02 -719 3.935501e+07 -1.13686e+02 -720 3.981072e+07 -1.13663e+02 -721 4.027170e+07 -1.13640e+02 -722 4.073803e+07 -1.13618e+02 -723 4.120975e+07 -1.13596e+02 -724 4.168694e+07 -1.13575e+02 -725 4.216965e+07 -1.13554e+02 -726 4.265795e+07 -1.13533e+02 -727 4.315191e+07 -1.13513e+02 -728 4.365158e+07 -1.13493e+02 -729 4.415704e+07 -1.13474e+02 -730 4.466836e+07 -1.13455e+02 -731 4.518559e+07 -1.13437e+02 -732 4.570882e+07 -1.13419e+02 -733 4.623810e+07 -1.13402e+02 -734 4.677351e+07 -1.13386e+02 -735 4.731513e+07 -1.13370e+02 -736 4.786301e+07 -1.13355e+02 -737 4.841724e+07 -1.13340e+02 -738 4.897788e+07 -1.13326e+02 -739 4.954502e+07 -1.13313e+02 -740 5.011872e+07 -1.13301e+02 -741 5.069907e+07 -1.13289e+02 -742 5.128614e+07 -1.13278e+02 -743 5.188000e+07 -1.13269e+02 -744 5.248075e+07 -1.13260e+02 -745 5.308844e+07 -1.13252e+02 -746 5.370318e+07 -1.13245e+02 -747 5.432503e+07 -1.13239e+02 -748 5.495409e+07 -1.13234e+02 -749 5.559043e+07 -1.13230e+02 -750 5.623413e+07 -1.13227e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -751 5.688529e+07 -1.13226e+02 -752 5.754399e+07 -1.13226e+02 -753 5.821032e+07 -1.13227e+02 -754 5.888437e+07 -1.13229e+02 -755 5.956621e+07 -1.13233e+02 -756 6.025596e+07 -1.13238e+02 -757 6.095369e+07 -1.13245e+02 -758 6.165950e+07 -1.13253e+02 -759 6.237348e+07 -1.13264e+02 -760 6.309573e+07 -1.13275e+02 -761 6.382635e+07 -1.13289e+02 -762 6.456542e+07 -1.13305e+02 -763 6.531306e+07 -1.13323e+02 -764 6.606934e+07 -1.13343e+02 -765 6.683439e+07 -1.13365e+02 -766 6.760830e+07 -1.13390e+02 -767 6.839116e+07 -1.13417e+02 -768 6.918310e+07 -1.13447e+02 -769 6.998420e+07 -1.13479e+02 -770 7.079458e+07 -1.13516e+02 -771 7.161434e+07 -1.13556e+02 -772 7.244360e+07 -1.13599e+02 -773 7.328245e+07 -1.13646e+02 -774 7.413102e+07 -1.13697e+02 -775 7.498942e+07 -1.13752e+02 -776 7.585776e+07 -1.13813e+02 -777 7.673615e+07 -1.13879e+02 -778 7.762471e+07 -1.13951e+02 -779 7.852356e+07 -1.14029e+02 -780 7.943282e+07 -1.14114e+02 -781 8.035261e+07 -1.14207e+02 -782 8.128305e+07 -1.14309e+02 -783 8.222426e+07 -1.14420e+02 -784 8.317638e+07 -1.14542e+02 -785 8.413951e+07 -1.14676e+02 -786 8.511380e+07 -1.14824e+02 -787 8.609938e+07 -1.14987e+02 -788 8.709636e+07 -1.15167e+02 -789 8.810489e+07 -1.15368e+02 -790 8.912509e+07 -1.15591e+02 -791 9.015711e+07 -1.15841e+02 -792 9.120108e+07 -1.16122e+02 -793 9.225714e+07 -1.16439e+02 -794 9.332543e+07 -1.16798e+02 -795 9.440609e+07 -1.17208e+02 -796 9.549926e+07 -1.17677e+02 -797 9.660509e+07 -1.18219e+02 -798 9.772372e+07 -1.18845e+02 -799 9.885531e+07 -1.19573e+02 -800 1.000000e+08 -1.20413e+02 -801 1.011579e+08 -1.21367e+02 -802 1.023293e+08 -1.22389e+02 -803 1.035142e+08 -1.23313e+02 -804 1.047129e+08 -1.23757e+02 -805 1.059254e+08 -1.23248e+02 -806 1.071519e+08 -1.21740e+02 -807 1.083927e+08 -1.19676e+02 -808 1.096478e+08 -1.17464e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -809 1.109175e+08 -1.15289e+02 -810 1.122018e+08 -1.13200e+02 -811 1.135011e+08 -1.11197e+02 -812 1.148154e+08 -1.09264e+02 -813 1.161449e+08 -1.07387e+02 -814 1.174898e+08 -1.05575e+02 -815 1.188502e+08 -1.03920e+02 -816 1.202264e+08 -1.03064e+02 -817 1.216186e+08 -9.63557e+01 -818 1.230269e+08 -9.42390e+01 -819 1.244515e+08 -9.18491e+01 -820 1.258925e+08 -8.83562e+01 -821 1.273503e+08 -8.32294e+01 -822 1.288250e+08 -7.36484e+01 -823 1.303167e+08 -7.18880e+01 -824 1.318257e+08 -7.99635e+01 -825 1.333521e+08 -8.15543e+01 -826 1.348963e+08 -8.99044e+01 -827 1.364583e+08 -9.28727e+01 -828 1.380384e+08 -9.37825e+01 -829 1.396368e+08 -9.44747e+01 -830 1.412538e+08 -9.50744e+01 -831 1.428894e+08 -9.55985e+01 -832 1.445440e+08 -9.60577e+01 -833 1.462177e+08 -9.64619e+01 -834 1.479108e+08 -9.68199e+01 -835 1.496236e+08 -9.71393e+01 -836 1.513561e+08 -9.74263e+01 -837 1.531087e+08 -9.76865e+01 -838 1.548817e+08 -9.79241e+01 -839 1.566751e+08 -9.81429e+01 -840 1.584893e+08 -9.83461e+01 -841 1.603245e+08 -9.85364e+01 -842 1.621810e+08 -9.87160e+01 -843 1.640590e+08 -9.88868e+01 -844 1.659587e+08 -9.90507e+01 -845 1.678804e+08 -9.92089e+01 -846 1.698244e+08 -9.93627e+01 -847 1.717908e+08 -9.95132e+01 -848 1.737801e+08 -9.96615e+01 -849 1.757924e+08 -9.98082e+01 -850 1.778279e+08 -9.99544e+01 -851 1.798871e+08 -1.00100e+02 -852 1.819701e+08 -1.00247e+02 -853 1.840772e+08 -1.00394e+02 -854 1.862087e+08 -1.00543e+02 -855 1.883649e+08 -1.00694e+02 -856 1.905461e+08 -1.00848e+02 -857 1.927525e+08 -1.01004e+02 -858 1.949845e+08 -1.01162e+02 -859 1.972423e+08 -1.01324e+02 -860 1.995262e+08 -1.01488e+02 -861 2.018366e+08 -1.01654e+02 -862 2.041738e+08 -1.01822e+02 -863 2.065380e+08 -1.01991e+02 -864 2.089296e+08 -1.02156e+02 -865 2.113489e+08 -1.02315e+02 -866 2.137962e+08 -1.02461e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -867 2.162719e+08 -1.02584e+02 -868 2.187762e+08 -1.02666e+02 -869 2.213095e+08 -1.02686e+02 -870 2.238721e+08 -1.02611e+02 -871 2.264644e+08 -1.02397e+02 -872 2.290868e+08 -1.01998e+02 -873 2.317395e+08 -1.01367e+02 -874 2.344229e+08 -1.00483e+02 -875 2.371374e+08 -9.93726e+01 -876 2.398833e+08 -9.81713e+01 -877 2.426610e+08 -9.48386e+01 -878 2.454709e+08 -8.97267e+01 -879 2.483133e+08 -8.83933e+01 -880 2.511886e+08 -8.53229e+01 -881 2.540973e+08 -8.08060e+01 -882 2.570396e+08 -7.32092e+01 -883 2.600160e+08 -6.12965e+01 -884 2.630268e+08 -7.42427e+01 -885 2.660725e+08 -7.65814e+01 -886 2.691535e+08 -8.04754e+01 -887 2.722701e+08 -8.77175e+01 -888 2.754229e+08 -8.87707e+01 -889 2.786121e+08 -8.93109e+01 -890 2.818383e+08 -8.98092e+01 -891 2.851018e+08 -9.02714e+01 -892 2.884032e+08 -9.06953e+01 -893 2.917427e+08 -9.10841e+01 -894 2.951209e+08 -9.14431e+01 -895 2.985383e+08 -9.17772e+01 -896 3.019952e+08 -9.20913e+01 -897 3.054921e+08 -9.23883e+01 -898 3.090295e+08 -9.26707e+01 -899 3.126079e+08 -9.29398e+01 -900 3.162278e+08 -9.31957e+01 -901 3.198895e+08 -9.34372e+01 -902 3.235937e+08 -9.36618e+01 -903 3.273407e+08 -9.38649e+01 -904 3.311311e+08 -9.40394e+01 -905 3.349654e+08 -9.41743e+01 -906 3.388442e+08 -9.42537e+01 -907 3.427678e+08 -9.42545e+01 -908 3.467369e+08 -9.41445e+01 -909 3.507519e+08 -9.38812e+01 -910 3.548134e+08 -9.34145e+01 -911 3.589219e+08 -9.26851e+01 -912 3.630781e+08 -9.10966e+01 -913 3.672823e+08 -8.55059e+01 -914 3.715352e+08 -8.58574e+01 -915 3.758374e+08 -8.33023e+01 -916 3.801894e+08 -7.93210e+01 -917 3.845918e+08 -7.28897e+01 -918 3.890451e+08 -5.69411e+01 -919 3.935501e+08 -7.02088e+01 -920 3.981072e+08 -7.34651e+01 -921 4.027170e+08 -7.40835e+01 -922 4.073803e+08 -8.31751e+01 -923 4.120975e+08 -8.52161e+01 -924 4.168694e+08 -8.58064e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -925 4.216965e+08 -8.62971e+01 -926 4.265795e+08 -8.67516e+01 -927 4.315191e+08 -8.71710e+01 -928 4.365158e+08 -8.75555e+01 -929 4.415704e+08 -8.79045e+01 -930 4.466836e+08 -8.82148e+01 -931 4.518559e+08 -8.84787e+01 -932 4.570882e+08 -8.86824e+01 -933 4.623810e+08 -8.88039e+01 -934 4.677351e+08 -8.88099e+01 -935 4.731513e+08 -8.86491e+01 -936 4.786301e+08 -8.82303e+01 -937 4.841724e+08 -8.69527e+01 -938 4.897788e+08 -8.27695e+01 -939 4.954502e+08 -8.35069e+01 -940 5.011872e+08 -8.11632e+01 -941 5.069907e+08 -7.73545e+01 -942 5.128614e+08 -7.10196e+01 -943 5.188000e+08 -5.42683e+01 -944 5.248075e+08 -6.84410e+01 -945 5.308844e+08 -7.15155e+01 -946 5.370318e+08 -7.16324e+01 -947 5.432503e+08 -8.00408e+01 -948 5.495409e+08 -8.24843e+01 -949 5.559043e+08 -8.31903e+01 -950 5.623413e+08 -8.36894e+01 -951 5.688529e+08 -8.41089e+01 -952 5.754399e+08 -8.44565e+01 -953 5.821032e+08 -8.47163e+01 -954 5.888437e+08 -8.48547e+01 -955 5.956621e+08 -8.48066e+01 -956 6.025596e+08 -8.43683e+01 -957 6.095369e+08 -7.79377e+01 -958 6.165950e+08 -8.19385e+01 -959 6.237348e+08 -8.04348e+01 -960 6.309573e+08 -7.74770e+01 -961 6.382635e+08 -7.25626e+01 -962 6.456542e+08 -6.23462e+01 -963 6.531306e+08 -6.05150e+01 -964 6.606934e+08 -6.94560e+01 -965 6.683439e+08 -7.00720e+01 -966 6.760830e+08 -7.45254e+01 -967 6.839116e+08 -7.95081e+01 -968 6.918310e+08 -8.07028e+01 -969 6.998420e+08 -8.12707e+01 -970 7.079458e+08 -8.16260e+01 -971 7.161434e+08 -8.17828e+01 -972 7.244360e+08 -8.15397e+01 -973 7.328245e+08 -7.59947e+01 -974 7.413102e+08 -8.00560e+01 -975 7.498942e+08 -7.85361e+01 -976 7.585776e+08 -7.56105e+01 -977 7.673615e+08 -7.04323e+01 -978 7.762471e+08 -5.81010e+01 -979 7.852356e+08 -6.61138e+01 -980 7.943282e+08 -6.89708e+01 -981 8.035261e+08 -6.89395e+01 -982 8.128305e+08 -7.37155e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -983 8.222426e+08 -7.76374e+01 -984 8.317638e+08 -7.87705e+01 -985 8.413951e+08 -7.91920e+01 -986 8.511380e+08 -7.84281e+01 -987 8.609938e+08 -7.84381e+01 -988 8.709636e+08 -7.77698e+01 -989 8.810489e+08 -7.57497e+01 -990 8.912509e+08 -7.19299e+01 -991 9.015711e+08 -6.40098e+01 -992 9.120108e+08 -5.37573e+01 -993 9.225714e+08 -6.74030e+01 -994 9.332543e+08 -6.88089e+01 -995 9.440609e+08 -6.94619e+01 -996 9.549926e+08 -7.47236e+01 -997 9.660509e+08 -7.65726e+01 -998 9.772372e+08 -7.48308e+01 -999 9.885531e+08 -7.66625e+01 -1000 1.000000e+09 -7.57576e+01 - -CPU time since last call: 0.707 seconds. - -Total CPU time: 0.707 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4854.625000 MB. -Total ngspice program size = 7.732422 MB. -Resident set size = 1.409180 MB. -Shared ngspice pages = 536.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 997.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec deleted file mode 100644 index ad8c232..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_28_ESCC_3902003_V1 -0.0 0.0048 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec deleted file mode 100644 index 20cd3b2..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,89 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -#Transfer impedance terms -2 # number of transfer impedances to include in the model -9 -1 # conductor number and coupling direction for transfer impedance model 1 + -13 -1 # conductor number and coupling direction for transfer impedance model 1 + -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -2.0 -50.0 End 1 impedance list, wire 1 50 ohms, all other wires open circuit -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -1E6 -0.0 ! shield 1 joined to outer shield at end 1 -1E6 ! other inner shields left open circuit -1E6 -1E6 -0.0 -50.0 ! impedance ground plane to shields -# Type of analysis -AC -log # frequency scale (log or lin) -1e4 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 9 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e4 1e9 100 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference deleted file mode 100644 index 92afc04..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 10000.000000000000 -77.563520599720349 - 10115.911122238298 -77.564524250912100 - 10233.165783302449 -77.565551068104568 - 10351.779556301763 -77.566601571967368 - 10471.768194855204 -77.567676314508091 - 10593.147635183701 -77.568775833185995 - 10715.933998226712 -77.569900703553984 - 10840.143591783310 -77.571051495841658 - 10965.792912678098 -77.572228811352218 - 11092.898648952229 -77.573433244377725 - 11221.477682079802 -77.574665414807811 - 11351.547089209991 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-82.491738888264067 - 421332174.38472891 -83.011427217071017 - 426215882.90153247 -83.568976438906191 - 431156199.03182286 -84.185300881146773 - 436153778.92080057 -84.883990610182536 - 441209286.31911898 -85.690409653612662 - 446323392.67103976 -86.625792028015070 - 451496777.20361018 -87.680647362509035 - 456730127.01687467 -88.713732207829651 - 462024137.17513132 -89.174603591614940 - 467379510.79924637 -87.988557213345871 - 472796959.16003907 -84.438850879349530 - 478277201.77274853 -74.386267132736833 - 483820966.49259573 -73.510022214231199 - 489428989.61145318 -66.220900581825276 - 495102015.95563513 -51.550919796187706 - 500840798.98482126 -70.319412193202169 - 506646100.89212686 -71.891768278207451 - 512518692.70533329 -73.543287946959751 - 518459354.38929129 -81.957324277585627 - 524468874.94951189 -79.592178456501600 - 530548052.53695744 -79.607263640152183 - 536697694.55404758 -80.045951040924393 - 542918617.76189423 -80.607611648572885 - 549211648.38877892 -81.250784392849610 - 555577622.23988783 -81.998584210617693 - 562017384.80831885 -82.908837304803512 - 568531791.38737535 -84.076830587984659 - 575121707.18416142 -85.641211183885986 - 581788007.43449354 -87.655445776033147 - 588531577.51914501 -88.572248356602358 - 595353313.08143699 -79.273311683281051 - 602254120.14619279 -75.743509174150901 - 609234915.24007118 -69.755568343155346 - 616296625.51329422 -56.662089411819366 - 623440188.86278641 -57.183379605143543 - 630666554.05674052 -72.182826270871530 - 637976680.86062825 -71.541361645308427 - 645371540.16467023 -83.564666920481244 - 652852114.11278474 -80.280809248960310 - 660419396.23303056 -79.500308447718965 - 668074391.56956148 -79.898358243449351 - 675818116.81611097 -80.645218182102525 - 683651600.45102382 -81.656506277141219 - 691575882.87385249 -83.042871833305753 - 699592016.54353750 -85.089502403892610 - 707701066.11818898 -88.027240832564928 - 715904108.59648883 -77.912398897110634 - 724202233.46073151 -76.141074755515760 - 732596542.82152307 -68.419919147444929 - 741088151.56415701 -51.864828960946177 - 749678187.49668765 -56.005147301671528 - 758367791.49971902 -71.621820597360923 - 767158117.67793024 -70.727077931611745 - 776050333.51335716 -87.239988737980539 - 785045620.02045095 -81.072406508715233 - 794145171.90293396 -80.405156505774457 - 803350197.71247351 -81.172283684335170 - 812661920.00919449 -82.541130626133821 - 822081575.52405405 -84.442935185419714 - 831610415.32309616 -86.892443472870710 - 841249704.97361183 -77.559546653320297 - 851000724.71222460 -71.445582890010954 - 860864769.61492443 -59.905514587421784 - 870843149.76907241 -53.250402767760470 - 880937190.44739914 -74.057615785694125 - 891148232.28402019 -70.195439386670216 - 901477631.45249176 -72.370618502347043 - 911926759.84592986 -84.925488379692439 - 922497005.25921738 -82.394578662981829 - 933189771.57332385 -83.193842845249293 - 944006478.94176030 -84.495907320997233 - 954948563.97919667 -94.698164743101074 - 966017479.95226455 -74.544133863123619 - 977214696.97257245 -66.720964530963840 - 988541702.19195735 -49.611656501923910 - 1000000000.0000000 -53.823840376025835 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference deleted file mode 100644 index 227c55b..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 3.36151106 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference deleted file mode 100644 index 7e1ad23..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:06:21 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -0 1.000000e+04 -7.75590e+01 -1 1.011579e+04 -7.75599e+01 -2 1.023293e+04 -7.75607e+01 -3 1.035142e+04 -7.75617e+01 -4 1.047129e+04 -7.75626e+01 -5 1.059254e+04 -7.75636e+01 -6 1.071519e+04 -7.75645e+01 -7 1.083927e+04 -7.75655e+01 -8 1.096478e+04 -7.75666e+01 -9 1.109175e+04 -7.75676e+01 -10 1.122018e+04 -7.75687e+01 -11 1.135011e+04 -7.75698e+01 -12 1.148154e+04 -7.75709e+01 -13 1.161449e+04 -7.75721e+01 -14 1.174898e+04 -7.75732e+01 -15 1.188502e+04 -7.75744e+01 -16 1.202264e+04 -7.75757e+01 -17 1.216186e+04 -7.75769e+01 -18 1.230269e+04 -7.75782e+01 -19 1.244515e+04 -7.75795e+01 -20 1.258925e+04 -7.75809e+01 -21 1.273503e+04 -7.75822e+01 -22 1.288250e+04 -7.75837e+01 -23 1.303167e+04 -7.75851e+01 -24 1.318257e+04 -7.75866e+01 -25 1.333521e+04 -7.75881e+01 -26 1.348963e+04 -7.75896e+01 -27 1.364583e+04 -7.75912e+01 -28 1.380384e+04 -7.75928e+01 -29 1.396368e+04 -7.75945e+01 -30 1.412538e+04 -7.75962e+01 -31 1.428894e+04 -7.75979e+01 -32 1.445440e+04 -7.75997e+01 -33 1.462177e+04 -7.76015e+01 -34 1.479108e+04 -7.76033e+01 -35 1.496236e+04 -7.76052e+01 -36 1.513561e+04 -7.76071e+01 -37 1.531087e+04 -7.76091e+01 -38 1.548817e+04 -7.76111e+01 -39 1.566751e+04 -7.76132e+01 -40 1.584893e+04 -7.76153e+01 -41 1.603245e+04 -7.76175e+01 -42 1.621810e+04 -7.76197e+01 -43 1.640590e+04 -7.76220e+01 -44 1.659587e+04 -7.76243e+01 -45 1.678804e+04 -7.76267e+01 -46 1.698244e+04 -7.76291e+01 -47 1.717908e+04 -7.76316e+01 -48 1.737801e+04 -7.76341e+01 -49 1.757924e+04 -7.76367e+01 -50 1.778279e+04 -7.76393e+01 -51 1.798871e+04 -7.76421e+01 -52 1.819701e+04 -7.76448e+01 -53 1.840772e+04 -7.76477e+01 -54 1.862087e+04 -7.76506e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -55 1.883649e+04 -7.76535e+01 -56 1.905461e+04 -7.76566e+01 -57 1.927525e+04 -7.76597e+01 -58 1.949845e+04 -7.76628e+01 -59 1.972423e+04 -7.76661e+01 -60 1.995262e+04 -7.76694e+01 -61 2.018366e+04 -7.76728e+01 -62 2.041738e+04 -7.76762e+01 -63 2.065380e+04 -7.76798e+01 -64 2.089296e+04 -7.76834e+01 -65 2.113489e+04 -7.76871e+01 -66 2.137962e+04 -7.76909e+01 -67 2.162719e+04 -7.76948e+01 -68 2.187762e+04 -7.76987e+01 -69 2.213095e+04 -7.77028e+01 -70 2.238721e+04 -7.77069e+01 -71 2.264644e+04 -7.77112e+01 -72 2.290868e+04 -7.77155e+01 -73 2.317395e+04 -7.77199e+01 -74 2.344229e+04 -7.77244e+01 -75 2.371374e+04 -7.77290e+01 -76 2.398833e+04 -7.77338e+01 -77 2.426610e+04 -7.77386e+01 -78 2.454709e+04 -7.77435e+01 -79 2.483133e+04 -7.77486e+01 -80 2.511886e+04 -7.77537e+01 -81 2.540973e+04 -7.77590e+01 -82 2.570396e+04 -7.77644e+01 -83 2.600160e+04 -7.77699e+01 -84 2.630268e+04 -7.77755e+01 -85 2.660725e+04 -7.77812e+01 -86 2.691535e+04 -7.77871e+01 -87 2.722701e+04 -7.77931e+01 -88 2.754229e+04 -7.77993e+01 -89 2.786121e+04 -7.78055e+01 -90 2.818383e+04 -7.78119e+01 -91 2.851018e+04 -7.78185e+01 -92 2.884032e+04 -7.78251e+01 -93 2.917427e+04 -7.78320e+01 -94 2.951209e+04 -7.78390e+01 -95 2.985383e+04 -7.78461e+01 -96 3.019952e+04 -7.78534e+01 -97 3.054921e+04 -7.78608e+01 -98 3.090295e+04 -7.78684e+01 -99 3.126079e+04 -7.78762e+01 -100 3.162278e+04 -7.78841e+01 -101 3.198895e+04 -7.78922e+01 -102 3.235937e+04 -7.79005e+01 -103 3.273407e+04 -7.79089e+01 -104 3.311311e+04 -7.79176e+01 -105 3.349654e+04 -7.79264e+01 -106 3.388442e+04 -7.79354e+01 -107 3.427678e+04 -7.79446e+01 -108 3.467369e+04 -7.79539e+01 -109 3.507519e+04 -7.79635e+01 -110 3.548134e+04 -7.79733e+01 -111 3.589219e+04 -7.79833e+01 -112 3.630781e+04 -7.79935e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -113 3.672823e+04 -7.80039e+01 -114 3.715352e+04 -7.80145e+01 -115 3.758374e+04 -7.80254e+01 -116 3.801894e+04 -7.80364e+01 -117 3.845918e+04 -7.80477e+01 -118 3.890451e+04 -7.80593e+01 -119 3.935501e+04 -7.80710e+01 -120 3.981072e+04 -7.80830e+01 -121 4.027170e+04 -7.80953e+01 -122 4.073803e+04 -7.81078e+01 -123 4.120975e+04 -7.81206e+01 -124 4.168694e+04 -7.81336e+01 -125 4.216965e+04 -7.81469e+01 -126 4.265795e+04 -7.81604e+01 -127 4.315191e+04 -7.81742e+01 -128 4.365158e+04 -7.81883e+01 -129 4.415704e+04 -7.82027e+01 -130 4.466836e+04 -7.82174e+01 -131 4.518559e+04 -7.82323e+01 -132 4.570882e+04 -7.82476e+01 -133 4.623810e+04 -7.82631e+01 -134 4.677351e+04 -7.82790e+01 -135 4.731513e+04 -7.82951e+01 -136 4.786301e+04 -7.83116e+01 -137 4.841724e+04 -7.83284e+01 -138 4.897788e+04 -7.83455e+01 -139 4.954502e+04 -7.83630e+01 -140 5.011872e+04 -7.83808e+01 -141 5.069907e+04 -7.83989e+01 -142 5.128614e+04 -7.84174e+01 -143 5.188000e+04 -7.84362e+01 -144 5.248075e+04 -7.84553e+01 -145 5.308844e+04 -7.84749e+01 -146 5.370318e+04 -7.84948e+01 -147 5.432503e+04 -7.85150e+01 -148 5.495409e+04 -7.85357e+01 -149 5.559043e+04 -7.85567e+01 -150 5.623413e+04 -7.85781e+01 -151 5.688529e+04 -7.85999e+01 -152 5.754399e+04 -7.86221e+01 -153 5.821032e+04 -7.86447e+01 -154 5.888437e+04 -7.86677e+01 -155 5.956621e+04 -7.86911e+01 -156 6.025596e+04 -7.87149e+01 -157 6.095369e+04 -7.87391e+01 -158 6.165950e+04 -7.87638e+01 -159 6.237348e+04 -7.87889e+01 -160 6.309573e+04 -7.88144e+01 -161 6.382635e+04 -7.88404e+01 -162 6.456542e+04 -7.88668e+01 -163 6.531306e+04 -7.88937e+01 -164 6.606934e+04 -7.89210e+01 -165 6.683439e+04 -7.89487e+01 -166 6.760830e+04 -7.89770e+01 -167 6.839116e+04 -7.90057e+01 -168 6.918310e+04 -7.90349e+01 -169 6.998420e+04 -7.90645e+01 -170 7.079458e+04 -7.90947e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -171 7.161434e+04 -7.91253e+01 -172 7.244360e+04 -7.91564e+01 -173 7.328245e+04 -7.91881e+01 -174 7.413102e+04 -7.92202e+01 -175 7.498942e+04 -7.92528e+01 -176 7.585776e+04 -7.92859e+01 -177 7.673615e+04 -7.93196e+01 -178 7.762471e+04 -7.93537e+01 -179 7.852356e+04 -7.93884e+01 -180 7.943282e+04 -7.94236e+01 -181 8.035261e+04 -7.94593e+01 -182 8.128305e+04 -7.94956e+01 -183 8.222426e+04 -7.95324e+01 -184 8.317638e+04 -7.95697e+01 -185 8.413951e+04 -7.96075e+01 -186 8.511380e+04 -7.96460e+01 -187 8.609938e+04 -7.96849e+01 -188 8.709636e+04 -7.97244e+01 -189 8.810489e+04 -7.97645e+01 -190 8.912509e+04 -7.98051e+01 -191 9.015711e+04 -7.98462e+01 -192 9.120108e+04 -7.98880e+01 -193 9.225714e+04 -7.99302e+01 -194 9.332543e+04 -7.99731e+01 -195 9.440609e+04 -8.00165e+01 -196 9.549926e+04 -8.00605e+01 -197 9.660509e+04 -8.01050e+01 -198 9.772372e+04 -8.01501e+01 -199 9.885531e+04 -8.01958e+01 -200 1.000000e+05 -8.02420e+01 -201 1.011579e+05 -8.02889e+01 -202 1.023293e+05 -8.03363e+01 -203 1.035142e+05 -8.03842e+01 -204 1.047129e+05 -8.04328e+01 -205 1.059254e+05 -8.04819e+01 -206 1.071519e+05 -8.05316e+01 -207 1.083927e+05 -8.05819e+01 -208 1.096478e+05 -8.06327e+01 -209 1.109175e+05 -8.06841e+01 -210 1.122018e+05 -8.07361e+01 -211 1.135011e+05 -8.07887e+01 -212 1.148154e+05 -8.08418e+01 -213 1.161449e+05 -8.08955e+01 -214 1.174898e+05 -8.09498e+01 -215 1.188502e+05 -8.10047e+01 -216 1.202264e+05 -8.10601e+01 -217 1.216186e+05 -8.11161e+01 -218 1.230269e+05 -8.11726e+01 -219 1.244515e+05 -8.12297e+01 -220 1.258925e+05 -8.12874e+01 -221 1.273503e+05 -8.13457e+01 -222 1.288250e+05 -8.14045e+01 -223 1.303167e+05 -8.14638e+01 -224 1.318257e+05 -8.15237e+01 -225 1.333521e+05 -8.15842e+01 -226 1.348963e+05 -8.16452e+01 -227 1.364583e+05 -8.17067e+01 -228 1.380384e+05 -8.17688e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -229 1.396368e+05 -8.18314e+01 -230 1.412538e+05 -8.18946e+01 -231 1.428894e+05 -8.19583e+01 -232 1.445440e+05 -8.20225e+01 -233 1.462177e+05 -8.20873e+01 -234 1.479108e+05 -8.21525e+01 -235 1.496236e+05 -8.22183e+01 -236 1.513561e+05 -8.22846e+01 -237 1.531087e+05 -8.23515e+01 -238 1.548817e+05 -8.24188e+01 -239 1.566751e+05 -8.24867e+01 -240 1.584893e+05 -8.25550e+01 -241 1.603245e+05 -8.26238e+01 -242 1.621810e+05 -8.26931e+01 -243 1.640590e+05 -8.27629e+01 -244 1.659587e+05 -8.28331e+01 -245 1.678804e+05 -8.29039e+01 -246 1.698244e+05 -8.29751e+01 -247 1.717908e+05 -8.30468e+01 -248 1.737801e+05 -8.31189e+01 -249 1.757924e+05 -8.31915e+01 -250 1.778279e+05 -8.32646e+01 -251 1.798871e+05 -8.33381e+01 -252 1.819701e+05 -8.34120e+01 -253 1.840772e+05 -8.34864e+01 -254 1.862087e+05 -8.35612e+01 -255 1.883649e+05 -8.36364e+01 -256 1.905461e+05 -8.37121e+01 -257 1.927525e+05 -8.37882e+01 -258 1.949845e+05 -8.38647e+01 -259 1.972423e+05 -8.39417e+01 -260 1.995262e+05 -8.40190e+01 -261 2.018366e+05 -8.40967e+01 -262 2.041738e+05 -8.41748e+01 -263 2.065380e+05 -8.42532e+01 -264 2.089296e+05 -8.43321e+01 -265 2.113489e+05 -8.44113e+01 -266 2.137962e+05 -8.44909e+01 -267 2.162719e+05 -8.45709e+01 -268 2.187762e+05 -8.46512e+01 -269 2.213095e+05 -8.47319e+01 -270 2.238721e+05 -8.48129e+01 -271 2.264644e+05 -8.48943e+01 -272 2.290868e+05 -8.49760e+01 -273 2.317395e+05 -8.50581e+01 -274 2.344229e+05 -8.51405e+01 -275 2.371374e+05 -8.52232e+01 -276 2.398833e+05 -8.53062e+01 -277 2.426610e+05 -8.53896e+01 -278 2.454709e+05 -8.54733e+01 -279 2.483133e+05 -8.55572e+01 -280 2.511886e+05 -8.56415e+01 -281 2.540973e+05 -8.57261e+01 -282 2.570396e+05 -8.58109e+01 -283 2.600160e+05 -8.58961e+01 -284 2.630268e+05 -8.59815e+01 -285 2.660725e+05 -8.60672e+01 -286 2.691535e+05 -8.61531e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -287 2.722701e+05 -8.62393e+01 -288 2.754229e+05 -8.63258e+01 -289 2.786121e+05 -8.64126e+01 -290 2.818383e+05 -8.64996e+01 -291 2.851018e+05 -8.65868e+01 -292 2.884032e+05 -8.66743e+01 -293 2.917427e+05 -8.67620e+01 -294 2.951209e+05 -8.68500e+01 -295 2.985383e+05 -8.69383e+01 -296 3.019952e+05 -8.70267e+01 -297 3.054921e+05 -8.71153e+01 -298 3.090295e+05 -8.72042e+01 -299 3.126079e+05 -8.72932e+01 -300 3.162278e+05 -8.73826e+01 -301 3.198895e+05 -8.74720e+01 -302 3.235937e+05 -8.75617e+01 -303 3.273407e+05 -8.76516e+01 -304 3.311311e+05 -8.77417e+01 -305 3.349654e+05 -8.78320e+01 -306 3.388442e+05 -8.79224e+01 -307 3.427678e+05 -8.80131e+01 -308 3.467369e+05 -8.81039e+01 -309 3.507519e+05 -8.81949e+01 -310 3.548134e+05 -8.82861e+01 -311 3.589219e+05 -8.83774e+01 -312 3.630781e+05 -8.84690e+01 -313 3.672823e+05 -8.85606e+01 -314 3.715352e+05 -8.86524e+01 -315 3.758374e+05 -8.87445e+01 -316 3.801894e+05 -8.88366e+01 -317 3.845918e+05 -8.89288e+01 -318 3.890451e+05 -8.90212e+01 -319 3.935501e+05 -8.91137e+01 -320 3.981072e+05 -8.92064e+01 -321 4.027170e+05 -8.92992e+01 -322 4.073803e+05 -8.93922e+01 -323 4.120975e+05 -8.94852e+01 -324 4.168694e+05 -8.95784e+01 -325 4.216965e+05 -8.96717e+01 -326 4.265795e+05 -8.97652e+01 -327 4.315191e+05 -8.98587e+01 -328 4.365158e+05 -8.99524e+01 -329 4.415704e+05 -9.00463e+01 -330 4.466836e+05 -9.01401e+01 -331 4.518559e+05 -9.02341e+01 -332 4.570882e+05 -9.03281e+01 -333 4.623810e+05 -9.04223e+01 -334 4.677351e+05 -9.05166e+01 -335 4.731513e+05 -9.06110e+01 -336 4.786301e+05 -9.07054e+01 -337 4.841724e+05 -9.08000e+01 -338 4.897788e+05 -9.08947e+01 -339 4.954502e+05 -9.09895e+01 -340 5.011872e+05 -9.10843e+01 -341 5.069907e+05 -9.11791e+01 -342 5.128614e+05 -9.12741e+01 -343 5.188000e+05 -9.13691e+01 -344 5.248075e+05 -9.14642e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -345 5.308844e+05 -9.15594e+01 -346 5.370318e+05 -9.16546e+01 -347 5.432503e+05 -9.17499e+01 -348 5.495409e+05 -9.18453e+01 -349 5.559043e+05 -9.19407e+01 -350 5.623413e+05 -9.20362e+01 -351 5.688529e+05 -9.21317e+01 -352 5.754399e+05 -9.22273e+01 -353 5.821032e+05 -9.23229e+01 -354 5.888437e+05 -9.24187e+01 -355 5.956621e+05 -9.25145e+01 -356 6.025596e+05 -9.26102e+01 -357 6.095369e+05 -9.27060e+01 -358 6.165950e+05 -9.28019e+01 -359 6.237348e+05 -9.28978e+01 -360 6.309573e+05 -9.29937e+01 -361 6.382635e+05 -9.30897e+01 -362 6.456542e+05 -9.31856e+01 -363 6.531306e+05 -9.32817e+01 -364 6.606934e+05 -9.33778e+01 -365 6.683439e+05 -9.34738e+01 -366 6.760830e+05 -9.35701e+01 -367 6.839116e+05 -9.36662e+01 -368 6.918310e+05 -9.37623e+01 -369 6.998420e+05 -9.38585e+01 -370 7.079458e+05 -9.39547e+01 -371 7.161434e+05 -9.40509e+01 -372 7.244360e+05 -9.41471e+01 -373 7.328245e+05 -9.42433e+01 -374 7.413102e+05 -9.43395e+01 -375 7.498942e+05 -9.44359e+01 -376 7.585776e+05 -9.45321e+01 -377 7.673615e+05 -9.46284e+01 -378 7.762471e+05 -9.47247e+01 -379 7.852356e+05 -9.48209e+01 -380 7.943282e+05 -9.49171e+01 -381 8.035261e+05 -9.50133e+01 -382 8.128305e+05 -9.51098e+01 -383 8.222426e+05 -9.52060e+01 -384 8.317638e+05 -9.53022e+01 -385 8.413951e+05 -9.53984e+01 -386 8.511380e+05 -9.54946e+01 -387 8.609938e+05 -9.55908e+01 -388 8.709636e+05 -9.56870e+01 -389 8.810489e+05 -9.57832e+01 -390 8.912509e+05 -9.58792e+01 -391 9.015711e+05 -9.59754e+01 -392 9.120108e+05 -9.60715e+01 -393 9.225714e+05 -9.61675e+01 -394 9.332543e+05 -9.62636e+01 -395 9.440609e+05 -9.63596e+01 -396 9.549926e+05 -9.64556e+01 -397 9.660509e+05 -9.65515e+01 -398 9.772372e+05 -9.66473e+01 -399 9.885531e+05 -9.67433e+01 -400 1.000000e+06 -9.68391e+01 -401 1.011579e+06 -9.69349e+01 -402 1.023293e+06 -9.70306e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -403 1.035142e+06 -9.71263e+01 -404 1.047129e+06 -9.72220e+01 -405 1.059254e+06 -9.73175e+01 -406 1.071519e+06 -9.74131e+01 -407 1.083927e+06 -9.75085e+01 -408 1.096478e+06 -9.76040e+01 -409 1.109175e+06 -9.76994e+01 -410 1.122018e+06 -9.77946e+01 -411 1.135011e+06 -9.78899e+01 -412 1.148154e+06 -9.79850e+01 -413 1.161449e+06 -9.80802e+01 -414 1.174898e+06 -9.81752e+01 -415 1.188502e+06 -9.82702e+01 -416 1.202264e+06 -9.83651e+01 -417 1.216186e+06 -9.84598e+01 -418 1.230269e+06 -9.85546e+01 -419 1.244515e+06 -9.86492e+01 -420 1.258925e+06 -9.87437e+01 -421 1.273503e+06 -9.88382e+01 -422 1.288250e+06 -9.89326e+01 -423 1.303167e+06 -9.90269e+01 -424 1.318257e+06 -9.91211e+01 -425 1.333521e+06 -9.92151e+01 -426 1.348963e+06 -9.93091e+01 -427 1.364583e+06 -9.94030e+01 -428 1.380384e+06 -9.94968e+01 -429 1.396368e+06 -9.95905e+01 -430 1.412538e+06 -9.96840e+01 -431 1.428894e+06 -9.97775e+01 -432 1.445440e+06 -9.98707e+01 -433 1.462177e+06 -9.99639e+01 -434 1.479108e+06 -1.00057e+02 -435 1.496236e+06 -1.00150e+02 -436 1.513561e+06 -1.00243e+02 -437 1.531087e+06 -1.00335e+02 -438 1.548817e+06 -1.00428e+02 -439 1.566751e+06 -1.00520e+02 -440 1.584893e+06 -1.00613e+02 -441 1.603245e+06 -1.00705e+02 -442 1.621810e+06 -1.00797e+02 -443 1.640590e+06 -1.00888e+02 -444 1.659587e+06 -1.00980e+02 -445 1.678804e+06 -1.01072e+02 -446 1.698244e+06 -1.01163e+02 -447 1.717908e+06 -1.01254e+02 -448 1.737801e+06 -1.01345e+02 -449 1.757924e+06 -1.01436e+02 -450 1.778279e+06 -1.01526e+02 -451 1.798871e+06 -1.01617e+02 -452 1.819701e+06 -1.01707e+02 -453 1.840772e+06 -1.01797e+02 -454 1.862087e+06 -1.01887e+02 -455 1.883649e+06 -1.01977e+02 -456 1.905461e+06 -1.02066e+02 -457 1.927525e+06 -1.02155e+02 -458 1.949845e+06 -1.02245e+02 -459 1.972423e+06 -1.02333e+02 -460 1.995262e+06 -1.02422e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -461 2.018366e+06 -1.02510e+02 -462 2.041738e+06 -1.02599e+02 -463 2.065380e+06 -1.02686e+02 -464 2.089296e+06 -1.02774e+02 -465 2.113489e+06 -1.02862e+02 -466 2.137962e+06 -1.02949e+02 -467 2.162719e+06 -1.03036e+02 -468 2.187762e+06 -1.03122e+02 -469 2.213095e+06 -1.03209e+02 -470 2.238721e+06 -1.03295e+02 -471 2.264644e+06 -1.03381e+02 -472 2.290868e+06 -1.03467e+02 -473 2.317395e+06 -1.03552e+02 -474 2.344229e+06 -1.03637e+02 -475 2.371374e+06 -1.03722e+02 -476 2.398833e+06 -1.03806e+02 -477 2.426610e+06 -1.03890e+02 -478 2.454709e+06 -1.03974e+02 -479 2.483133e+06 -1.04058e+02 -480 2.511886e+06 -1.04141e+02 -481 2.540973e+06 -1.04224e+02 -482 2.570396e+06 -1.04307e+02 -483 2.600160e+06 -1.04389e+02 -484 2.630268e+06 -1.04471e+02 -485 2.660725e+06 -1.04552e+02 -486 2.691535e+06 -1.04634e+02 -487 2.722701e+06 -1.04715e+02 -488 2.754229e+06 -1.04795e+02 -489 2.786121e+06 -1.04875e+02 -490 2.818383e+06 -1.04955e+02 -491 2.851018e+06 -1.05035e+02 -492 2.884032e+06 -1.05114e+02 -493 2.917427e+06 -1.05192e+02 -494 2.951209e+06 -1.05270e+02 -495 2.985383e+06 -1.05348e+02 -496 3.019952e+06 -1.05426e+02 -497 3.054921e+06 -1.05503e+02 -498 3.090295e+06 -1.05580e+02 -499 3.126079e+06 -1.05656e+02 -500 3.162278e+06 -1.05732e+02 -501 3.198895e+06 -1.05807e+02 -502 3.235937e+06 -1.05882e+02 -503 3.273407e+06 -1.05957e+02 -504 3.311311e+06 -1.06031e+02 -505 3.349654e+06 -1.06104e+02 -506 3.388442e+06 -1.06178e+02 -507 3.427678e+06 -1.06250e+02 -508 3.467369e+06 -1.06323e+02 -509 3.507519e+06 -1.06394e+02 -510 3.548134e+06 -1.06466e+02 -511 3.589219e+06 -1.06537e+02 -512 3.630781e+06 -1.06607e+02 -513 3.672823e+06 -1.06677e+02 -514 3.715352e+06 -1.06746e+02 -515 3.758374e+06 -1.06815e+02 -516 3.801894e+06 -1.06883e+02 -517 3.845918e+06 -1.06951e+02 -518 3.890451e+06 -1.07019e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -519 3.935501e+06 -1.07085e+02 -520 3.981072e+06 -1.07152e+02 -521 4.027170e+06 -1.07217e+02 -522 4.073803e+06 -1.07283e+02 -523 4.120975e+06 -1.07347e+02 -524 4.168694e+06 -1.07411e+02 -525 4.216965e+06 -1.07475e+02 -526 4.265795e+06 -1.07538e+02 -527 4.315191e+06 -1.07601e+02 -528 4.365158e+06 -1.07663e+02 -529 4.415704e+06 -1.07724e+02 -530 4.466836e+06 -1.07785e+02 -531 4.518559e+06 -1.07845e+02 -532 4.570882e+06 -1.07904e+02 -533 4.623810e+06 -1.07964e+02 -534 4.677351e+06 -1.08022e+02 -535 4.731513e+06 -1.08080e+02 -536 4.786301e+06 -1.08137e+02 -537 4.841724e+06 -1.08194e+02 -538 4.897788e+06 -1.08250e+02 -539 4.954502e+06 -1.08306e+02 -540 5.011872e+06 -1.08360e+02 -541 5.069907e+06 -1.08415e+02 -542 5.128614e+06 -1.08469e+02 -543 5.188000e+06 -1.08522e+02 -544 5.248075e+06 -1.08574e+02 -545 5.308844e+06 -1.08626e+02 -546 5.370318e+06 -1.08677e+02 -547 5.432503e+06 -1.08728e+02 -548 5.495409e+06 -1.08778e+02 -549 5.559043e+06 -1.08828e+02 -550 5.623413e+06 -1.08876e+02 -551 5.688529e+06 -1.08924e+02 -552 5.754399e+06 -1.08972e+02 -553 5.821032e+06 -1.09019e+02 -554 5.888437e+06 -1.09065e+02 -555 5.956621e+06 -1.09111e+02 -556 6.025596e+06 -1.09156e+02 -557 6.095369e+06 -1.09200e+02 -558 6.165950e+06 -1.09244e+02 -559 6.237348e+06 -1.09288e+02 -560 6.309573e+06 -1.09330e+02 -561 6.382635e+06 -1.09372e+02 -562 6.456542e+06 -1.09413e+02 -563 6.531306e+06 -1.09454e+02 -564 6.606934e+06 -1.09494e+02 -565 6.683439e+06 -1.09534e+02 -566 6.760830e+06 -1.09572e+02 -567 6.839116e+06 -1.09611e+02 -568 6.918310e+06 -1.09648e+02 -569 6.998420e+06 -1.09685e+02 -570 7.079458e+06 -1.09722e+02 -571 7.161434e+06 -1.09757e+02 -572 7.244360e+06 -1.09792e+02 -573 7.328245e+06 -1.09827e+02 -574 7.413102e+06 -1.09861e+02 -575 7.498942e+06 -1.09894e+02 -576 7.585776e+06 -1.09927e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -577 7.673615e+06 -1.09959e+02 -578 7.762471e+06 -1.09990e+02 -579 7.852356e+06 -1.10021e+02 -580 7.943282e+06 -1.10051e+02 -581 8.035261e+06 -1.10081e+02 -582 8.128305e+06 -1.10110e+02 -583 8.222426e+06 -1.10138e+02 -584 8.317638e+06 -1.10166e+02 -585 8.413951e+06 -1.10194e+02 -586 8.511380e+06 -1.10220e+02 -587 8.609938e+06 -1.10246e+02 -588 8.709636e+06 -1.10272e+02 -589 8.810489e+06 -1.10297e+02 -590 8.912509e+06 -1.10321e+02 -591 9.015711e+06 -1.10345e+02 -592 9.120108e+06 -1.10368e+02 -593 9.225714e+06 -1.10391e+02 -594 9.332543e+06 -1.10413e+02 -595 9.440609e+06 -1.10434e+02 -596 9.549926e+06 -1.10455e+02 -597 9.660509e+06 -1.10476e+02 -598 9.772372e+06 -1.10496e+02 -599 9.885531e+06 -1.10515e+02 -600 1.000000e+07 -1.10534e+02 -601 1.011579e+07 -1.10552e+02 -602 1.023293e+07 -1.10570e+02 -603 1.035142e+07 -1.10587e+02 -604 1.047129e+07 -1.10603e+02 -605 1.059254e+07 -1.10619e+02 -606 1.071519e+07 -1.10635e+02 -607 1.083927e+07 -1.10650e+02 -608 1.096478e+07 -1.10664e+02 -609 1.109175e+07 -1.10678e+02 -610 1.122018e+07 -1.10692e+02 -611 1.135011e+07 -1.10705e+02 -612 1.148154e+07 -1.10717e+02 -613 1.161449e+07 -1.10729e+02 -614 1.174898e+07 -1.10740e+02 -615 1.188502e+07 -1.10751e+02 -616 1.202264e+07 -1.10762e+02 -617 1.216186e+07 -1.10772e+02 -618 1.230269e+07 -1.10781e+02 -619 1.244515e+07 -1.10790e+02 -620 1.258925e+07 -1.10798e+02 -621 1.273503e+07 -1.10806e+02 -622 1.288250e+07 -1.10813e+02 -623 1.303167e+07 -1.10820e+02 -624 1.318257e+07 -1.10827e+02 -625 1.333521e+07 -1.10833e+02 -626 1.348963e+07 -1.10838e+02 -627 1.364583e+07 -1.10843e+02 -628 1.380384e+07 -1.10848e+02 -629 1.396368e+07 -1.10852e+02 -630 1.412538e+07 -1.10856e+02 -631 1.428894e+07 -1.10859e+02 -632 1.445440e+07 -1.10862e+02 -633 1.462177e+07 -1.10864e+02 -634 1.479108e+07 -1.10866e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -635 1.496236e+07 -1.10867e+02 -636 1.513561e+07 -1.10868e+02 -637 1.531087e+07 -1.10869e+02 -638 1.548817e+07 -1.10869e+02 -639 1.566751e+07 -1.10868e+02 -640 1.584893e+07 -1.10867e+02 -641 1.603245e+07 -1.10866e+02 -642 1.621810e+07 -1.10864e+02 -643 1.640590e+07 -1.10862e+02 -644 1.659587e+07 -1.10860e+02 -645 1.678804e+07 -1.10857e+02 -646 1.698244e+07 -1.10853e+02 -647 1.717908e+07 -1.10849e+02 -648 1.737801e+07 -1.10845e+02 -649 1.757924e+07 -1.10840e+02 -650 1.778279e+07 -1.10835e+02 -651 1.798871e+07 -1.10830e+02 -652 1.819701e+07 -1.10824e+02 -653 1.840772e+07 -1.10817e+02 -654 1.862087e+07 -1.10810e+02 -655 1.883649e+07 -1.10803e+02 -656 1.905461e+07 -1.10796e+02 -657 1.927525e+07 -1.10788e+02 -658 1.949845e+07 -1.10780e+02 -659 1.972423e+07 -1.10771e+02 -660 1.995262e+07 -1.10762e+02 -661 2.018366e+07 -1.10752e+02 -662 2.041738e+07 -1.10743e+02 -663 2.065380e+07 -1.10732e+02 -664 2.089296e+07 -1.10722e+02 -665 2.113489e+07 -1.10711e+02 -666 2.137962e+07 -1.10699e+02 -667 2.162719e+07 -1.10688e+02 -668 2.187762e+07 -1.10676e+02 -669 2.213095e+07 -1.10663e+02 -670 2.238721e+07 -1.10651e+02 -671 2.264644e+07 -1.10637e+02 -672 2.290868e+07 -1.10624e+02 -673 2.317395e+07 -1.10610e+02 -674 2.344229e+07 -1.10596e+02 -675 2.371374e+07 -1.10582e+02 -676 2.398833e+07 -1.10567e+02 -677 2.426610e+07 -1.10552e+02 -678 2.454709e+07 -1.10536e+02 -679 2.483133e+07 -1.10521e+02 -680 2.511886e+07 -1.10504e+02 -681 2.540973e+07 -1.10488e+02 -682 2.570396e+07 -1.10471e+02 -683 2.600160e+07 -1.10455e+02 -684 2.630268e+07 -1.10437e+02 -685 2.660725e+07 -1.10420e+02 -686 2.691535e+07 -1.10402e+02 -687 2.722701e+07 -1.10384e+02 -688 2.754229e+07 -1.10366e+02 -689 2.786121e+07 -1.10347e+02 -690 2.818383e+07 -1.10328e+02 -691 2.851018e+07 -1.10309e+02 -692 2.884032e+07 -1.10290e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -693 2.917427e+07 -1.10270e+02 -694 2.951209e+07 -1.10250e+02 -695 2.985383e+07 -1.10230e+02 -696 3.019952e+07 -1.10210e+02 -697 3.054921e+07 -1.10190e+02 -698 3.090295e+07 -1.10169e+02 -699 3.126079e+07 -1.10148e+02 -700 3.162278e+07 -1.10127e+02 -701 3.198895e+07 -1.10106e+02 -702 3.235937e+07 -1.10084e+02 -703 3.273407e+07 -1.10063e+02 -704 3.311311e+07 -1.10041e+02 -705 3.349654e+07 -1.10019e+02 -706 3.388442e+07 -1.09997e+02 -707 3.427678e+07 -1.09974e+02 -708 3.467369e+07 -1.09952e+02 -709 3.507519e+07 -1.09930e+02 -710 3.548134e+07 -1.09907e+02 -711 3.589219e+07 -1.09884e+02 -712 3.630781e+07 -1.09861e+02 -713 3.672823e+07 -1.09838e+02 -714 3.715352e+07 -1.09815e+02 -715 3.758374e+07 -1.09791e+02 -716 3.801894e+07 -1.09768e+02 -717 3.845918e+07 -1.09744e+02 -718 3.890451e+07 -1.09720e+02 -719 3.935501e+07 -1.09697e+02 -720 3.981072e+07 -1.09673e+02 -721 4.027170e+07 -1.09649e+02 -722 4.073803e+07 -1.09624e+02 -723 4.120975e+07 -1.09600e+02 -724 4.168694e+07 -1.09576e+02 -725 4.216965e+07 -1.09551e+02 -726 4.265795e+07 -1.09527e+02 -727 4.315191e+07 -1.09502e+02 -728 4.365158e+07 -1.09477e+02 -729 4.415704e+07 -1.09452e+02 -730 4.466836e+07 -1.09427e+02 -731 4.518559e+07 -1.09402e+02 -732 4.570882e+07 -1.09376e+02 -733 4.623810e+07 -1.09351e+02 -734 4.677351e+07 -1.09325e+02 -735 4.731513e+07 -1.09299e+02 -736 4.786301e+07 -1.09272e+02 -737 4.841724e+07 -1.09246e+02 -738 4.897788e+07 -1.09219e+02 -739 4.954502e+07 -1.09192e+02 -740 5.011872e+07 -1.09165e+02 -741 5.069907e+07 -1.09137e+02 -742 5.128614e+07 -1.09110e+02 -743 5.188000e+07 -1.09081e+02 -744 5.248075e+07 -1.09052e+02 -745 5.308844e+07 -1.09023e+02 -746 5.370318e+07 -1.08993e+02 -747 5.432503e+07 -1.08963e+02 -748 5.495409e+07 -1.08932e+02 -749 5.559043e+07 -1.08901e+02 -750 5.623413e+07 -1.08869e+02 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -751 5.688529e+07 -1.08836e+02 -752 5.754399e+07 -1.08802e+02 -753 5.821032e+07 -1.08767e+02 -754 5.888437e+07 -1.08731e+02 -755 5.956621e+07 -1.08695e+02 -756 6.025596e+07 -1.08657e+02 -757 6.095369e+07 -1.08618e+02 -758 6.165950e+07 -1.08577e+02 -759 6.237348e+07 -1.08535e+02 -760 6.309573e+07 -1.08492e+02 -761 6.382635e+07 -1.08447e+02 -762 6.456542e+07 -1.08400e+02 -763 6.531306e+07 -1.08351e+02 -764 6.606934e+07 -1.08300e+02 -765 6.683439e+07 -1.08246e+02 -766 6.760830e+07 -1.08190e+02 -767 6.839116e+07 -1.08132e+02 -768 6.918310e+07 -1.08070e+02 -769 6.998420e+07 -1.08006e+02 -770 7.079458e+07 -1.07938e+02 -771 7.161434e+07 -1.07867e+02 -772 7.244360e+07 -1.07791e+02 -773 7.328245e+07 -1.07712e+02 -774 7.413102e+07 -1.07628e+02 -775 7.498942e+07 -1.07539e+02 -776 7.585776e+07 -1.07445e+02 -777 7.673615e+07 -1.07346e+02 -778 7.762471e+07 -1.07240e+02 -779 7.852356e+07 -1.07128e+02 -780 7.943282e+07 -1.07009e+02 -781 8.035261e+07 -1.06883e+02 -782 8.128305e+07 -1.06748e+02 -783 8.222426e+07 -1.06604e+02 -784 8.317638e+07 -1.06451e+02 -785 8.413951e+07 -1.06288e+02 -786 8.511380e+07 -1.06113e+02 -787 8.609938e+07 -1.05926e+02 -788 8.709636e+07 -1.05726e+02 -789 8.810489e+07 -1.05512e+02 -790 8.912509e+07 -1.05283e+02 -791 9.015711e+07 -1.05036e+02 -792 9.120108e+07 -1.04771e+02 -793 9.225714e+07 -1.04487e+02 -794 9.332543e+07 -1.04180e+02 -795 9.440609e+07 -1.03850e+02 -796 9.549926e+07 -1.03494e+02 -797 9.660509e+07 -1.03110e+02 -798 9.772372e+07 -1.02694e+02 -799 9.885531e+07 -1.02245e+02 -800 1.000000e+08 -1.01759e+02 -801 1.011579e+08 -1.01232e+02 -802 1.023293e+08 -1.00660e+02 -803 1.035142e+08 -1.00039e+02 -804 1.047129e+08 -9.93635e+01 -805 1.059254e+08 -9.86267e+01 -806 1.071519e+08 -9.78215e+01 -807 1.083927e+08 -9.69388e+01 -808 1.096478e+08 -9.59675e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -809 1.109175e+08 -9.48929e+01 -810 1.122018e+08 -9.36957e+01 -811 1.135011e+08 -9.23493e+01 -812 1.148154e+08 -9.08150e+01 -813 1.161449e+08 -8.90293e+01 -814 1.174898e+08 -8.68205e+01 -815 1.188502e+08 -8.22638e+01 -816 1.202264e+08 -7.98627e+01 -817 1.216186e+08 -7.46821e+01 -818 1.230269e+08 -6.52980e+01 -819 1.244515e+08 -7.28507e+01 -820 1.258925e+08 -7.91305e+01 -821 1.273503e+08 -8.35356e+01 -822 1.288250e+08 -8.71964e+01 -823 1.303167e+08 -8.72971e+01 -824 1.318257e+08 -8.80312e+01 -825 1.333521e+08 -8.88002e+01 -826 1.348963e+08 -8.94943e+01 -827 1.364583e+08 -9.01007e+01 -828 1.380384e+08 -9.06268e+01 -829 1.396368e+08 -9.10831e+01 -830 1.412538e+08 -9.14800e+01 -831 1.428894e+08 -9.18265e+01 -832 1.445440e+08 -9.21303e+01 -833 1.462177e+08 -9.23976e+01 -834 1.479108e+08 -9.26337e+01 -835 1.496236e+08 -9.28433e+01 -836 1.513561e+08 -9.30300e+01 -837 1.531087e+08 -9.31967e+01 -838 1.548817e+08 -9.33464e+01 -839 1.566751e+08 -9.34812e+01 -840 1.584893e+08 -9.36029e+01 -841 1.603245e+08 -9.37131e+01 -842 1.621810e+08 -9.38128e+01 -843 1.640590e+08 -9.39032e+01 -844 1.659587e+08 -9.39847e+01 -845 1.678804e+08 -9.40580e+01 -846 1.698244e+08 -9.41233e+01 -847 1.717908e+08 -9.41803e+01 -848 1.737801e+08 -9.42293e+01 -849 1.757924e+08 -9.42696e+01 -850 1.778279e+08 -9.43009e+01 -851 1.798871e+08 -9.43221e+01 -852 1.819701e+08 -9.43321e+01 -853 1.840772e+08 -9.43300e+01 -854 1.862087e+08 -9.43139e+01 -855 1.883649e+08 -9.42821e+01 -856 1.905461e+08 -9.42324e+01 -857 1.927525e+08 -9.41625e+01 -858 1.949845e+08 -9.40692e+01 -859 1.972423e+08 -9.39496e+01 -860 1.995262e+08 -9.37993e+01 -861 2.018366e+08 -9.36144e+01 -862 2.041738e+08 -9.33894e+01 -863 2.065380e+08 -9.31185e+01 -864 2.089296e+08 -9.27945e+01 -865 2.113489e+08 -9.24095e+01 -866 2.137962e+08 -9.19534e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -867 2.162719e+08 -9.14154e+01 -868 2.187762e+08 -9.07811e+01 -869 2.213095e+08 -9.00338e+01 -870 2.238721e+08 -8.91523e+01 -871 2.264644e+08 -8.81086e+01 -872 2.290868e+08 -8.68652e+01 -873 2.317395e+08 -8.53652e+01 -874 2.344229e+08 -8.34959e+01 -875 2.371374e+08 -8.04689e+01 -876 2.398833e+08 -7.66894e+01 -877 2.426610e+08 -7.29888e+01 -878 2.454709e+08 -6.49081e+01 -879 2.483133e+08 -6.21705e+01 -880 2.511886e+08 -7.48369e+01 -881 2.540973e+08 -7.60984e+01 -882 2.570396e+08 -8.22835e+01 -883 2.600160e+08 -8.40868e+01 -884 2.630268e+08 -8.40371e+01 -885 2.660725e+08 -8.44809e+01 -886 2.691535e+08 -8.49656e+01 -887 2.722701e+08 -8.53982e+01 -888 2.754229e+08 -8.57635e+01 -889 2.786121e+08 -8.60655e+01 -890 2.818383e+08 -8.63123e+01 -891 2.851018e+08 -8.65124e+01 -892 2.884032e+08 -8.66731e+01 -893 2.917427e+08 -8.68001e+01 -894 2.951209e+08 -8.68977e+01 -895 2.985383e+08 -8.69680e+01 -896 3.019952e+08 -8.70121e+01 -897 3.054921e+08 -8.70289e+01 -898 3.090295e+08 -8.70157e+01 -899 3.126079e+08 -8.69678e+01 -900 3.162278e+08 -8.68784e+01 -901 3.198895e+08 -8.67387e+01 -902 3.235937e+08 -8.65368e+01 -903 3.273407e+08 -8.62580e+01 -904 3.311311e+08 -8.58832e+01 -905 3.349654e+08 -8.53884e+01 -906 3.388442e+08 -8.47421e+01 -907 3.427678e+08 -8.39025e+01 -908 3.467369e+08 -8.28094e+01 -909 3.507519e+08 -8.13600e+01 -910 3.548134e+08 -7.91590e+01 -911 3.589219e+08 -7.40606e+01 -912 3.630781e+08 -7.23839e+01 -913 3.672823e+08 -6.58666e+01 -914 3.715352e+08 -5.51888e+01 -915 3.758374e+08 -7.75162e+01 -916 3.801894e+08 -7.35200e+01 -917 3.845918e+08 -7.53404e+01 -918 3.890451e+08 -8.47568e+01 -919 3.935501e+08 -8.32138e+01 -920 3.981072e+08 -8.30811e+01 -921 4.027170e+08 -8.32335e+01 -922 4.073803e+08 -8.33959e+01 -923 4.120975e+08 -8.35077e+01 -924 4.168694e+08 -8.35575e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -925 4.216965e+08 -8.35472e+01 -926 4.265795e+08 -8.34804e+01 -927 4.315191e+08 -8.33585e+01 -928 4.365158e+08 -8.31783e+01 -929 4.415704e+08 -8.29304e+01 -930 4.466836e+08 -8.25971e+01 -931 4.518559e+08 -8.21502e+01 -932 4.570882e+08 -8.15459e+01 -933 4.623810e+08 -8.07183e+01 -934 4.677351e+08 -7.95511e+01 -935 4.731513e+08 -7.76209e+01 -936 4.786301e+08 -7.19804e+01 -937 4.841724e+08 -7.13484e+01 -938 4.897788e+08 -6.49973e+01 -939 4.954502e+08 -5.24459e+01 -940 5.011872e+08 -7.64229e+01 -941 5.069907e+08 -7.28203e+01 -942 5.128614e+08 -7.24119e+01 -943 5.188000e+08 -8.53230e+01 -944 5.248075e+08 -8.44045e+01 -945 5.308844e+08 -8.35186e+01 -946 5.370318e+08 -8.31813e+01 -947 5.432503e+08 -8.29327e+01 -948 5.495409e+08 -8.26494e+01 -949 5.559043e+08 -8.22902e+01 -950 5.623413e+08 -8.18333e+01 -951 5.688529e+08 -8.12542e+01 -952 5.754399e+08 -8.05123e+01 -953 5.821032e+08 -7.95317e+01 -954 5.888437e+08 -7.81151e+01 -955 5.956621e+08 -7.31398e+01 -956 6.025596e+08 -7.20148e+01 -957 6.095369e+08 -6.77130e+01 -958 6.165950e+08 -5.57711e+01 -959 6.237348e+08 -5.76614e+01 -960 6.309573e+08 -7.41344e+01 -961 6.382635e+08 -7.14289e+01 -962 6.456542e+08 -7.43741e+01 -963 6.531306e+08 -8.43527e+01 -964 6.606934e+08 -8.43068e+01 -965 6.683439e+08 -8.35770e+01 -966 6.760830e+08 -8.29069e+01 -967 6.839116e+08 -8.21799e+01 -968 6.918310e+08 -8.13067e+01 -969 6.998420e+08 -8.02045e+01 -970 7.079458e+08 -7.87054e+01 -971 7.161434e+08 -7.11557e+01 -972 7.244360e+08 -7.15555e+01 -973 7.328245e+08 -6.64077e+01 -974 7.413102e+08 -5.13369e+01 -975 7.498942e+08 -5.59079e+01 -976 7.585776e+08 -7.40510e+01 -977 7.673615e+08 -6.96686e+01 -978 7.762471e+08 -7.19904e+01 -979 7.852356e+08 -7.93127e+01 -980 7.943282e+08 -8.08950e+01 -981 8.035261e+08 -8.08612e+01 -982 8.128305e+08 -8.02408e+01 - -Index frequency db(v(44)-v(52)) --------------------------------------------------------------------------------- -983 8.222426e+08 -7.92267e+01 -984 8.317638e+08 -7.76458e+01 -985 8.413951e+08 -7.18235e+01 -986 8.511380e+08 -6.85936e+01 -987 8.609938e+08 -5.92017e+01 -988 8.709636e+08 -5.38577e+01 -989 8.810489e+08 -7.60722e+01 -990 8.912509e+08 -7.09404e+01 -991 9.015711e+08 -6.53930e+01 -992 9.120108e+08 -7.27834e+01 -993 9.225714e+08 -7.56421e+01 -994 9.332543e+08 -7.62761e+01 -995 9.440609e+08 -7.59426e+01 -996 9.549926e+08 -7.28451e+01 -997 9.660509e+08 -7.00250e+01 -998 9.772372e+08 -6.49455e+01 -999 9.885531e+08 -4.97452e+01 -1000 1.000000e+09 -5.38437e+01 - -CPU time since last call: 0.671 seconds. - -Total CPU time: 0.671 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4857.417969 MB. -Total ngspice program size = 7.699219 MB. -Resident set size = 1.409180 MB. -Shared ngspice pages = 537.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 963.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec deleted file mode 100644 index 3a1e99d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_26_ESCC_3902003_V2 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec deleted file mode 100644 index 357851d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground.spice_model_spec +++ /dev/null @@ -1,84 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_26_ESCC_3902003_V2_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -dB # output type (lin or dB) -4 # order for vector fit model -log # frequency scale (log or lin) -1e5 1e9 100 # fmin fmax number_of_frequencies diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/analytic_solution.dat_reference deleted file mode 100644 index 9dfe683..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 -1.3970103549232579E-002 - 100926.21909870484 -1.3973384342726851E-002 - 101861.01701559752 -1.3976724900305172E-002 - 102804.47320933097 -1.3980126286521198E-002 - 103756.66787451849 -1.3983589583987696E-002 - 104717.68194855202 -1.3987115893676079E-002 - 105687.59711848051 -1.3990706335159928E-002 - 106666.49582795388 -1.3994362046931925E-002 - 107654.46128423158 -1.3998084186632880E-002 - 108651.57746525372 -1.4001873931411179E-002 - 109657.92912678099 -1.4005732478135406E-002 - 110673.60180959746 -1.4009661043728670E-002 - 111698.68184678226 -1.4013660865452728E-002 - 112733.25637104872 -1.4017733201206580E-002 - 113777.41332214902 -1.4021879329802886E-002 - 114831.24145435111 -1.4026100551311933E-002 - 115894.83034398119 -1.4030398187312982E-002 - 116968.27039703846 -1.4034773581245006E-002 - 118051.65285688055 -1.4039228098692798E-002 - 119145.06981197748 -1.4043763127702981E-002 - 120248.61420374122 -1.4048380079098106E-002 - 121362.37983442418 -1.4053080386771447E-002 - 122486.46137509307 -1.4057865508058095E-002 - 123620.95437367691 -1.4062736923991119E-002 - 124765.95526308684 -1.4067696139660140E-002 - 125921.56136941510 -1.4072744684535104E-002 - 127087.87092020595 -1.4077884112760140E-002 - 128264.98305280598 -1.4083116003533404E-002 - 129452.99782279160 -1.4088441961384517E-002 - 130652.01621247199 -1.4093863616517707E-002 - 131862.14013947485 -1.4099382625176220E-002 - 133083.47246540760 -1.4105000669925575E-002 - 134316.11700460155 -1.4110719460014126E-002 - 135560.17853293690 -1.4116540731723005E-002 - 136815.76279674706 -1.4122466248655201E-002 - 138082.97652180924 -1.4128497802109678E-002 - 139361.92742241436 -1.4134637211406228E-002 - 140652.72421052365 -1.4140886324225777E-002 - 141955.47660501016 -1.4147247016926573E-002 - 143270.29534098294 -1.4153721194922204E-002 - 144597.29217920196 -1.4160310792963973E-002 - 145936.57991557577 -1.4167017775539232E-002 - 147288.27239075018 -1.4173844137145104E-002 - 148652.48449978570 -1.4180791902663636E-002 - 150029.33220192167 -1.4187863127678056E-002 - 151418.93253043521 -1.4195059898812210E-002 - 152821.40360258709 -1.4202384334056510E-002 - 154236.86462966274 -1.4209838583098702E-002 - 155665.43592710621 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a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00125407 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/spice_solution.dat_reference deleted file mode 100644 index d862e2c..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:08:00 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -0 1.000000e+05 -1.38017e-02 -1 1.009253e+05 -1.38017e-02 -2 1.018591e+05 -1.38017e-02 -3 1.028016e+05 -1.38018e-02 -4 1.037528e+05 -1.38018e-02 -5 1.047129e+05 -1.38019e-02 -6 1.056818e+05 -1.38019e-02 -7 1.066596e+05 -1.38020e-02 -8 1.076465e+05 -1.38020e-02 -9 1.086426e+05 -1.38021e-02 -10 1.096478e+05 -1.38021e-02 -11 1.106624e+05 -1.38022e-02 -12 1.116863e+05 -1.38022e-02 -13 1.127197e+05 -1.38023e-02 -14 1.137627e+05 -1.38023e-02 -15 1.148154e+05 -1.38024e-02 -16 1.158777e+05 -1.38024e-02 -17 1.169499e+05 -1.38025e-02 -18 1.180321e+05 -1.38025e-02 -19 1.191242e+05 -1.38026e-02 -20 1.202264e+05 -1.38026e-02 -21 1.213389e+05 -1.38027e-02 -22 1.224616e+05 -1.38028e-02 -23 1.235947e+05 -1.38028e-02 -24 1.247384e+05 -1.38029e-02 -25 1.258925e+05 -1.38029e-02 -26 1.270574e+05 -1.38030e-02 -27 1.282331e+05 -1.38031e-02 -28 1.294196e+05 -1.38031e-02 -29 1.306171e+05 -1.38032e-02 -30 1.318257e+05 -1.38033e-02 -31 1.330454e+05 -1.38034e-02 -32 1.342765e+05 -1.38034e-02 -33 1.355189e+05 -1.38035e-02 -34 1.367729e+05 -1.38036e-02 -35 1.380384e+05 -1.38037e-02 -36 1.393157e+05 -1.38037e-02 -37 1.406048e+05 -1.38038e-02 -38 1.419058e+05 -1.38039e-02 -39 1.432188e+05 -1.38040e-02 -40 1.445440e+05 -1.38041e-02 -41 1.458814e+05 -1.38041e-02 -42 1.472313e+05 -1.38042e-02 -43 1.485936e+05 -1.38043e-02 -44 1.499685e+05 -1.38044e-02 -45 1.513561e+05 -1.38045e-02 -46 1.527566e+05 -1.38046e-02 -47 1.541700e+05 -1.38047e-02 -48 1.555966e+05 -1.38048e-02 -49 1.570363e+05 -1.38049e-02 -50 1.584893e+05 -1.38050e-02 -51 1.599558e+05 -1.38051e-02 -52 1.614359e+05 -1.38052e-02 -53 1.629296e+05 -1.38053e-02 -54 1.644372e+05 -1.38054e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -55 1.659587e+05 -1.38055e-02 -56 1.674943e+05 -1.38056e-02 -57 1.690441e+05 -1.38057e-02 -58 1.706082e+05 -1.38059e-02 -59 1.721869e+05 -1.38060e-02 -60 1.737801e+05 -1.38061e-02 -61 1.753881e+05 -1.38062e-02 -62 1.770109e+05 -1.38063e-02 -63 1.786488e+05 -1.38065e-02 -64 1.803018e+05 -1.38066e-02 -65 1.819701e+05 -1.38067e-02 -66 1.836538e+05 -1.38069e-02 -67 1.853532e+05 -1.38070e-02 -68 1.870682e+05 -1.38072e-02 -69 1.887991e+05 -1.38073e-02 -70 1.905461e+05 -1.38074e-02 -71 1.923092e+05 -1.38076e-02 -72 1.940886e+05 -1.38077e-02 -73 1.958845e+05 -1.38079e-02 -74 1.976970e+05 -1.38080e-02 -75 1.995262e+05 -1.38082e-02 -76 2.013724e+05 -1.38084e-02 -77 2.032357e+05 -1.38085e-02 -78 2.051162e+05 -1.38087e-02 -79 2.070141e+05 -1.38089e-02 -80 2.089296e+05 -1.38091e-02 -81 2.108628e+05 -1.38092e-02 -82 2.128139e+05 -1.38094e-02 -83 2.147830e+05 -1.38096e-02 -84 2.167704e+05 -1.38098e-02 -85 2.187762e+05 -1.38100e-02 -86 2.208005e+05 -1.38102e-02 -87 2.228435e+05 -1.38104e-02 -88 2.249055e+05 -1.38106e-02 -89 2.269865e+05 -1.38108e-02 -90 2.290868e+05 -1.38110e-02 -91 2.312065e+05 -1.38112e-02 -92 2.333458e+05 -1.38114e-02 -93 2.355049e+05 -1.38116e-02 -94 2.376840e+05 -1.38119e-02 -95 2.398833e+05 -1.38121e-02 -96 2.421029e+05 -1.38123e-02 -97 2.443431e+05 -1.38126e-02 -98 2.466039e+05 -1.38128e-02 -99 2.488857e+05 -1.38131e-02 -100 2.511886e+05 -1.38133e-02 -101 2.535129e+05 -1.38136e-02 -102 2.558586e+05 -1.38138e-02 -103 2.582260e+05 -1.38141e-02 -104 2.606154e+05 -1.38144e-02 -105 2.630268e+05 -1.38147e-02 -106 2.654606e+05 -1.38149e-02 -107 2.679168e+05 -1.38152e-02 -108 2.703958e+05 -1.38155e-02 -109 2.728978e+05 -1.38158e-02 -110 2.754229e+05 -1.38161e-02 -111 2.779713e+05 -1.38164e-02 -112 2.805434e+05 -1.38167e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -113 2.831392e+05 -1.38171e-02 -114 2.857591e+05 -1.38174e-02 -115 2.884032e+05 -1.38177e-02 -116 2.910717e+05 -1.38181e-02 -117 2.937650e+05 -1.38184e-02 -118 2.964831e+05 -1.38188e-02 -119 2.992265e+05 -1.38191e-02 -120 3.019952e+05 -1.38195e-02 -121 3.047895e+05 -1.38199e-02 -122 3.076097e+05 -1.38202e-02 -123 3.104560e+05 -1.38206e-02 -124 3.133286e+05 -1.38210e-02 -125 3.162278e+05 -1.38214e-02 -126 3.191538e+05 -1.38218e-02 -127 3.221069e+05 -1.38222e-02 -128 3.250873e+05 -1.38227e-02 -129 3.280953e+05 -1.38231e-02 -130 3.311311e+05 -1.38235e-02 -131 3.341950e+05 -1.38240e-02 -132 3.372873e+05 -1.38244e-02 -133 3.404082e+05 -1.38249e-02 -134 3.435579e+05 -1.38254e-02 -135 3.467369e+05 -1.38259e-02 -136 3.499452e+05 -1.38263e-02 -137 3.531832e+05 -1.38268e-02 -138 3.564511e+05 -1.38274e-02 -139 3.597493e+05 -1.38279e-02 -140 3.630781e+05 -1.38284e-02 -141 3.664376e+05 -1.38289e-02 -142 3.698282e+05 -1.38295e-02 -143 3.732502e+05 -1.38300e-02 -144 3.767038e+05 -1.38306e-02 -145 3.801894e+05 -1.38312e-02 -146 3.837072e+05 -1.38318e-02 -147 3.872576e+05 -1.38324e-02 -148 3.908409e+05 -1.38330e-02 -149 3.944573e+05 -1.38336e-02 -150 3.981072e+05 -1.38343e-02 -151 4.017908e+05 -1.38349e-02 -152 4.055085e+05 -1.38356e-02 -153 4.092607e+05 -1.38362e-02 -154 4.130475e+05 -1.38369e-02 -155 4.168694e+05 -1.38376e-02 -156 4.207266e+05 -1.38383e-02 -157 4.246196e+05 -1.38390e-02 -158 4.285485e+05 -1.38398e-02 -159 4.325138e+05 -1.38405e-02 -160 4.365158e+05 -1.38413e-02 -161 4.405549e+05 -1.38421e-02 -162 4.446313e+05 -1.38429e-02 -163 4.487454e+05 -1.38437e-02 -164 4.528976e+05 -1.38445e-02 -165 4.570882e+05 -1.38453e-02 -166 4.613176e+05 -1.38462e-02 -167 4.655861e+05 -1.38470e-02 -168 4.698941e+05 -1.38479e-02 -169 4.742420e+05 -1.38488e-02 -170 4.786301e+05 -1.38497e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -171 4.830588e+05 -1.38507e-02 -172 4.875285e+05 -1.38516e-02 -173 4.920395e+05 -1.38526e-02 -174 4.965923e+05 -1.38536e-02 -175 5.011872e+05 -1.38546e-02 -176 5.058247e+05 -1.38556e-02 -177 5.105050e+05 -1.38567e-02 -178 5.152286e+05 -1.38577e-02 -179 5.199960e+05 -1.38588e-02 -180 5.248075e+05 -1.38599e-02 -181 5.296634e+05 -1.38610e-02 -182 5.345644e+05 -1.38622e-02 -183 5.395106e+05 -1.38633e-02 -184 5.445027e+05 -1.38645e-02 -185 5.495409e+05 -1.38657e-02 -186 5.546257e+05 -1.38670e-02 -187 5.597576e+05 -1.38682e-02 -188 5.649370e+05 -1.38695e-02 -189 5.701643e+05 -1.38708e-02 -190 5.754399e+05 -1.38721e-02 -191 5.807644e+05 -1.38735e-02 -192 5.861382e+05 -1.38748e-02 -193 5.915616e+05 -1.38762e-02 -194 5.970353e+05 -1.38777e-02 -195 6.025596e+05 -1.38791e-02 -196 6.081350e+05 -1.38806e-02 -197 6.137620e+05 -1.38821e-02 -198 6.194411e+05 -1.38836e-02 -199 6.251727e+05 -1.38852e-02 -200 6.309573e+05 -1.38868e-02 -201 6.367955e+05 -1.38884e-02 -202 6.426877e+05 -1.38901e-02 -203 6.486344e+05 -1.38918e-02 -204 6.546362e+05 -1.38935e-02 -205 6.606934e+05 -1.38952e-02 -206 6.668068e+05 -1.38970e-02 -207 6.729767e+05 -1.38988e-02 -208 6.792036e+05 -1.39007e-02 -209 6.854882e+05 -1.39025e-02 -210 6.918310e+05 -1.39045e-02 -211 6.982324e+05 -1.39064e-02 -212 7.046931e+05 -1.39084e-02 -213 7.112135e+05 -1.39104e-02 -214 7.177943e+05 -1.39125e-02 -215 7.244360e+05 -1.39146e-02 -216 7.311391e+05 -1.39167e-02 -217 7.379042e+05 -1.39189e-02 -218 7.447320e+05 -1.39211e-02 -219 7.516229e+05 -1.39234e-02 -220 7.585776e+05 -1.39257e-02 -221 7.655966e+05 -1.39280e-02 -222 7.726806e+05 -1.39304e-02 -223 7.798301e+05 -1.39328e-02 -224 7.870458e+05 -1.39353e-02 -225 7.943282e+05 -1.39378e-02 -226 8.016781e+05 -1.39404e-02 -227 8.090959e+05 -1.39430e-02 -228 8.165824e+05 -1.39457e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -229 8.241381e+05 -1.39484e-02 -230 8.317638e+05 -1.39512e-02 -231 8.394600e+05 -1.39540e-02 -232 8.472274e+05 -1.39569e-02 -233 8.550667e+05 -1.39598e-02 -234 8.629785e+05 -1.39628e-02 -235 8.709636e+05 -1.39658e-02 -236 8.790225e+05 -1.39689e-02 -237 8.871560e+05 -1.39720e-02 -238 8.953648e+05 -1.39752e-02 -239 9.036495e+05 -1.39785e-02 -240 9.120108e+05 -1.39818e-02 -241 9.204496e+05 -1.39852e-02 -242 9.289664e+05 -1.39887e-02 -243 9.375620e+05 -1.39922e-02 -244 9.462372e+05 -1.39958e-02 -245 9.549926e+05 -1.39994e-02 -246 9.638290e+05 -1.40031e-02 -247 9.727472e+05 -1.40069e-02 -248 9.817479e+05 -1.40107e-02 -249 9.908319e+05 -1.40147e-02 -250 1.000000e+06 -1.40187e-02 -251 1.009253e+06 -1.40227e-02 -252 1.018591e+06 -1.40269e-02 -253 1.028016e+06 -1.40311e-02 -254 1.037528e+06 -1.40354e-02 -255 1.047129e+06 -1.40398e-02 -256 1.056818e+06 -1.40442e-02 -257 1.066596e+06 -1.40488e-02 -258 1.076465e+06 -1.40534e-02 -259 1.086426e+06 -1.40581e-02 -260 1.096478e+06 -1.40629e-02 -261 1.106624e+06 -1.40678e-02 -262 1.116863e+06 -1.40728e-02 -263 1.127197e+06 -1.40779e-02 -264 1.137627e+06 -1.40830e-02 -265 1.148154e+06 -1.40883e-02 -266 1.158777e+06 -1.40937e-02 -267 1.169499e+06 -1.40991e-02 -268 1.180321e+06 -1.41047e-02 -269 1.191242e+06 -1.41103e-02 -270 1.202264e+06 -1.41161e-02 -271 1.213389e+06 -1.41220e-02 -272 1.224616e+06 -1.41280e-02 -273 1.235947e+06 -1.41341e-02 -274 1.247384e+06 -1.41403e-02 -275 1.258925e+06 -1.41466e-02 -276 1.270574e+06 -1.41530e-02 -277 1.282331e+06 -1.41596e-02 -278 1.294196e+06 -1.41663e-02 -279 1.306171e+06 -1.41731e-02 -280 1.318257e+06 -1.41800e-02 -281 1.330454e+06 -1.41870e-02 -282 1.342765e+06 -1.41942e-02 -283 1.355189e+06 -1.42016e-02 -284 1.367729e+06 -1.42090e-02 -285 1.380384e+06 -1.42166e-02 -286 1.393157e+06 -1.42243e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -287 1.406048e+06 -1.42322e-02 -288 1.419058e+06 -1.42402e-02 -289 1.432188e+06 -1.42484e-02 -290 1.445440e+06 -1.42567e-02 -291 1.458814e+06 -1.42652e-02 -292 1.472313e+06 -1.42738e-02 -293 1.485936e+06 -1.42826e-02 -294 1.499685e+06 -1.42916e-02 -295 1.513561e+06 -1.43007e-02 -296 1.527566e+06 -1.43100e-02 -297 1.541700e+06 -1.43194e-02 -298 1.555966e+06 -1.43291e-02 -299 1.570363e+06 -1.43389e-02 -300 1.584893e+06 -1.43489e-02 -301 1.599558e+06 -1.43591e-02 -302 1.614359e+06 -1.43694e-02 -303 1.629296e+06 -1.43800e-02 -304 1.644372e+06 -1.43907e-02 -305 1.659587e+06 -1.44017e-02 -306 1.674943e+06 -1.44128e-02 -307 1.690441e+06 -1.44242e-02 -308 1.706082e+06 -1.44358e-02 -309 1.721869e+06 -1.44475e-02 -310 1.737801e+06 -1.44595e-02 -311 1.753881e+06 -1.44718e-02 -312 1.770109e+06 -1.44842e-02 -313 1.786488e+06 -1.44969e-02 -314 1.803018e+06 -1.45098e-02 -315 1.819701e+06 -1.45229e-02 -316 1.836538e+06 -1.45363e-02 -317 1.853532e+06 -1.45500e-02 -318 1.870682e+06 -1.45638e-02 -319 1.887991e+06 -1.45780e-02 -320 1.905461e+06 -1.45924e-02 -321 1.923092e+06 -1.46070e-02 -322 1.940886e+06 -1.46220e-02 -323 1.958845e+06 -1.46372e-02 -324 1.976970e+06 -1.46527e-02 -325 1.995262e+06 -1.46685e-02 -326 2.013724e+06 -1.46845e-02 -327 2.032357e+06 -1.47009e-02 -328 2.051162e+06 -1.47175e-02 -329 2.070141e+06 -1.47345e-02 -330 2.089296e+06 -1.47518e-02 -331 2.108628e+06 -1.47694e-02 -332 2.128139e+06 -1.47873e-02 -333 2.147830e+06 -1.48055e-02 -334 2.167704e+06 -1.48241e-02 -335 2.187762e+06 -1.48430e-02 -336 2.208005e+06 -1.48623e-02 -337 2.228435e+06 -1.48819e-02 -338 2.249055e+06 -1.49019e-02 -339 2.269865e+06 -1.49223e-02 -340 2.290868e+06 -1.49430e-02 -341 2.312065e+06 -1.49641e-02 -342 2.333458e+06 -1.49856e-02 -343 2.355049e+06 -1.50075e-02 -344 2.376840e+06 -1.50297e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -345 2.398833e+06 -1.50524e-02 -346 2.421029e+06 -1.50755e-02 -347 2.443431e+06 -1.50991e-02 -348 2.466039e+06 -1.51230e-02 -349 2.488857e+06 -1.51474e-02 -350 2.511886e+06 -1.51722e-02 -351 2.535129e+06 -1.51975e-02 -352 2.558586e+06 -1.52233e-02 -353 2.582260e+06 -1.52495e-02 -354 2.606154e+06 -1.52762e-02 -355 2.630268e+06 -1.53034e-02 -356 2.654606e+06 -1.53311e-02 -357 2.679168e+06 -1.53593e-02 -358 2.703958e+06 -1.53880e-02 -359 2.728978e+06 -1.54172e-02 -360 2.754229e+06 -1.54470e-02 -361 2.779713e+06 -1.54773e-02 -362 2.805434e+06 -1.55081e-02 -363 2.831392e+06 -1.55396e-02 -364 2.857591e+06 -1.55715e-02 -365 2.884032e+06 -1.56041e-02 -366 2.910717e+06 -1.56373e-02 -367 2.937650e+06 -1.56710e-02 -368 2.964831e+06 -1.57054e-02 -369 2.992265e+06 -1.57404e-02 -370 3.019952e+06 -1.57760e-02 -371 3.047895e+06 -1.58123e-02 -372 3.076097e+06 -1.58492e-02 -373 3.104560e+06 -1.58868e-02 -374 3.133286e+06 -1.59251e-02 -375 3.162278e+06 -1.59641e-02 -376 3.191538e+06 -1.60037e-02 -377 3.221069e+06 -1.60441e-02 -378 3.250873e+06 -1.60853e-02 -379 3.280953e+06 -1.61271e-02 -380 3.311311e+06 -1.61697e-02 -381 3.341950e+06 -1.62131e-02 -382 3.372873e+06 -1.62573e-02 -383 3.404082e+06 -1.63023e-02 -384 3.435579e+06 -1.63480e-02 -385 3.467369e+06 -1.63946e-02 -386 3.499452e+06 -1.64421e-02 -387 3.531832e+06 -1.64903e-02 -388 3.564511e+06 -1.65395e-02 -389 3.597493e+06 -1.65895e-02 -390 3.630781e+06 -1.66405e-02 -391 3.664376e+06 -1.66923e-02 -392 3.698282e+06 -1.67451e-02 -393 3.732502e+06 -1.67988e-02 -394 3.767038e+06 -1.68534e-02 -395 3.801894e+06 -1.69091e-02 -396 3.837072e+06 -1.69657e-02 -397 3.872576e+06 -1.70234e-02 -398 3.908409e+06 -1.70821e-02 -399 3.944573e+06 -1.71418e-02 -400 3.981072e+06 -1.72026e-02 -401 4.017908e+06 -1.72645e-02 -402 4.055085e+06 -1.73274e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -403 4.092607e+06 -1.73915e-02 -404 4.130475e+06 -1.74567e-02 -405 4.168694e+06 -1.75231e-02 -406 4.207266e+06 -1.75906e-02 -407 4.246196e+06 -1.76594e-02 -408 4.285485e+06 -1.77294e-02 -409 4.325138e+06 -1.78005e-02 -410 4.365158e+06 -1.78730e-02 -411 4.405549e+06 -1.79467e-02 -412 4.446313e+06 -1.80217e-02 -413 4.487454e+06 -1.80981e-02 -414 4.528976e+06 -1.81758e-02 -415 4.570882e+06 -1.82548e-02 -416 4.613176e+06 -1.83352e-02 -417 4.655861e+06 -1.84171e-02 -418 4.698941e+06 -1.85004e-02 -419 4.742420e+06 -1.85851e-02 -420 4.786301e+06 -1.86713e-02 -421 4.830588e+06 -1.87590e-02 -422 4.875285e+06 -1.88482e-02 -423 4.920395e+06 -1.89390e-02 -424 4.965923e+06 -1.90314e-02 -425 5.011872e+06 -1.91253e-02 -426 5.058247e+06 -1.92209e-02 -427 5.105050e+06 -1.93181e-02 -428 5.152286e+06 -1.94171e-02 -429 5.199960e+06 -1.95177e-02 -430 5.248075e+06 -1.96200e-02 -431 5.296634e+06 -1.97242e-02 -432 5.345644e+06 -1.98301e-02 -433 5.395106e+06 -1.99378e-02 -434 5.445027e+06 -2.00474e-02 -435 5.495409e+06 -2.01588e-02 -436 5.546257e+06 -2.02721e-02 -437 5.597576e+06 -2.03874e-02 -438 5.649370e+06 -2.05046e-02 -439 5.701643e+06 -2.06239e-02 -440 5.754399e+06 -2.07451e-02 -441 5.807644e+06 -2.08684e-02 -442 5.861382e+06 -2.09938e-02 -443 5.915616e+06 -2.11213e-02 -444 5.970353e+06 -2.12510e-02 -445 6.025596e+06 -2.13828e-02 -446 6.081350e+06 -2.15168e-02 -447 6.137620e+06 -2.16531e-02 -448 6.194411e+06 -2.17917e-02 -449 6.251727e+06 -2.19325e-02 -450 6.309573e+06 -2.20758e-02 -451 6.367955e+06 -2.22214e-02 -452 6.426877e+06 -2.23694e-02 -453 6.486344e+06 -2.25198e-02 -454 6.546362e+06 -2.26728e-02 -455 6.606934e+06 -2.28282e-02 -456 6.668068e+06 -2.29863e-02 -457 6.729767e+06 -2.31469e-02 -458 6.792036e+06 -2.33101e-02 -459 6.854882e+06 -2.34760e-02 -460 6.918310e+06 -2.36446e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -461 6.982324e+06 -2.38159e-02 -462 7.046931e+06 -2.39901e-02 -463 7.112135e+06 -2.41670e-02 -464 7.177943e+06 -2.43468e-02 -465 7.244360e+06 -2.45294e-02 -466 7.311391e+06 -2.47150e-02 -467 7.379042e+06 -2.49036e-02 -468 7.447320e+06 -2.50952e-02 -469 7.516229e+06 -2.52898e-02 -470 7.585776e+06 -2.54875e-02 -471 7.655966e+06 -2.56883e-02 -472 7.726806e+06 -2.58923e-02 -473 7.798301e+06 -2.60995e-02 -474 7.870458e+06 -2.63100e-02 -475 7.943282e+06 -2.65237e-02 -476 8.016781e+06 -2.67407e-02 -477 8.090959e+06 -2.69612e-02 -478 8.165824e+06 -2.71850e-02 -479 8.241381e+06 -2.74122e-02 -480 8.317638e+06 -2.76430e-02 -481 8.394600e+06 -2.78773e-02 -482 8.472274e+06 -2.81152e-02 -483 8.550667e+06 -2.83566e-02 -484 8.629785e+06 -2.86017e-02 -485 8.709636e+06 -2.88506e-02 -486 8.790225e+06 -2.91031e-02 -487 8.871560e+06 -2.93594e-02 -488 8.953648e+06 -2.96196e-02 -489 9.036495e+06 -2.98836e-02 -490 9.120108e+06 -3.01515e-02 -491 9.204496e+06 -3.04233e-02 -492 9.289664e+06 -3.06991e-02 -493 9.375620e+06 -3.09790e-02 -494 9.462372e+06 -3.12629e-02 -495 9.549926e+06 -3.15509e-02 -496 9.638290e+06 -3.18430e-02 -497 9.727472e+06 -3.21393e-02 -498 9.817479e+06 -3.24398e-02 -499 9.908319e+06 -3.27446e-02 -500 1.000000e+07 -3.30537e-02 -501 1.009253e+07 -3.33671e-02 -502 1.018591e+07 -3.36849e-02 -503 1.028016e+07 -3.40071e-02 -504 1.037528e+07 -3.43338e-02 -505 1.047129e+07 -3.46649e-02 -506 1.056818e+07 -3.50006e-02 -507 1.066596e+07 -3.53408e-02 -508 1.076465e+07 -3.56856e-02 -509 1.086426e+07 -3.60350e-02 -510 1.096478e+07 -3.63890e-02 -511 1.106624e+07 -3.67478e-02 -512 1.116863e+07 -3.71113e-02 -513 1.127197e+07 -3.74795e-02 -514 1.137627e+07 -3.78525e-02 -515 1.148154e+07 -3.82303e-02 -516 1.158777e+07 -3.86130e-02 -517 1.169499e+07 -3.90005e-02 -518 1.180321e+07 -3.93930e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -519 1.191242e+07 -3.97903e-02 -520 1.202264e+07 -4.01926e-02 -521 1.213389e+07 -4.05999e-02 -522 1.224616e+07 -4.10122e-02 -523 1.235947e+07 -4.14295e-02 -524 1.247384e+07 -4.18518e-02 -525 1.258925e+07 -4.22792e-02 -526 1.270574e+07 -4.27117e-02 -527 1.282331e+07 -4.31492e-02 -528 1.294196e+07 -4.35919e-02 -529 1.306171e+07 -4.40397e-02 -530 1.318257e+07 -4.44926e-02 -531 1.330454e+07 -4.49507e-02 -532 1.342765e+07 -4.54139e-02 -533 1.355189e+07 -4.58823e-02 -534 1.367729e+07 -4.63559e-02 -535 1.380384e+07 -4.68346e-02 -536 1.393157e+07 -4.73186e-02 -537 1.406048e+07 -4.78077e-02 -538 1.419058e+07 -4.83021e-02 -539 1.432188e+07 -4.88016e-02 -540 1.445440e+07 -4.93063e-02 -541 1.458814e+07 -4.98162e-02 -542 1.472313e+07 -5.03312e-02 -543 1.485936e+07 -5.08515e-02 -544 1.499685e+07 -5.13769e-02 -545 1.513561e+07 -5.19074e-02 -546 1.527566e+07 -5.24431e-02 -547 1.541700e+07 -5.29839e-02 -548 1.555966e+07 -5.35298e-02 -549 1.570363e+07 -5.40808e-02 -550 1.584893e+07 -5.46369e-02 -551 1.599558e+07 -5.51980e-02 -552 1.614359e+07 -5.57641e-02 -553 1.629296e+07 -5.63352e-02 -554 1.644372e+07 -5.69113e-02 -555 1.659587e+07 -5.74923e-02 -556 1.674943e+07 -5.80782e-02 -557 1.690441e+07 -5.86689e-02 -558 1.706082e+07 -5.92645e-02 -559 1.721869e+07 -5.98649e-02 -560 1.737801e+07 -6.04700e-02 -561 1.753881e+07 -6.10799e-02 -562 1.770109e+07 -6.16944e-02 -563 1.786488e+07 -6.23135e-02 -564 1.803018e+07 -6.29371e-02 -565 1.819701e+07 -6.35653e-02 -566 1.836538e+07 -6.41980e-02 -567 1.853532e+07 -6.48350e-02 -568 1.870682e+07 -6.54764e-02 -569 1.887991e+07 -6.61221e-02 -570 1.905461e+07 -6.67720e-02 -571 1.923092e+07 -6.74260e-02 -572 1.940886e+07 -6.80842e-02 -573 1.958845e+07 -6.87464e-02 -574 1.976970e+07 -6.94125e-02 -575 1.995262e+07 -7.00825e-02 -576 2.013724e+07 -7.07564e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -577 2.032357e+07 -7.14340e-02 -578 2.051162e+07 -7.21153e-02 -579 2.070141e+07 -7.28001e-02 -580 2.089296e+07 -7.34885e-02 -581 2.108628e+07 -7.41803e-02 -582 2.128139e+07 -7.48754e-02 -583 2.147830e+07 -7.55738e-02 -584 2.167704e+07 -7.62754e-02 -585 2.187762e+07 -7.69801e-02 -586 2.208005e+07 -7.76877e-02 -587 2.228435e+07 -7.83983e-02 -588 2.249055e+07 -7.91118e-02 -589 2.269865e+07 -7.98279e-02 -590 2.290868e+07 -8.05467e-02 -591 2.312065e+07 -8.12680e-02 -592 2.333458e+07 -8.19918e-02 -593 2.355049e+07 -8.27180e-02 -594 2.376840e+07 -8.34464e-02 -595 2.398833e+07 -8.41769e-02 -596 2.421029e+07 -8.49096e-02 -597 2.443431e+07 -8.56442e-02 -598 2.466039e+07 -8.63806e-02 -599 2.488857e+07 -8.71189e-02 -600 2.511886e+07 -8.78588e-02 -601 2.535129e+07 -8.86003e-02 -602 2.558586e+07 -8.93432e-02 -603 2.582260e+07 -9.00876e-02 -604 2.606154e+07 -9.08332e-02 -605 2.630268e+07 -9.15799e-02 -606 2.654606e+07 -9.23278e-02 -607 2.679168e+07 -9.30766e-02 -608 2.703958e+07 -9.38263e-02 -609 2.728978e+07 -9.45768e-02 -610 2.754229e+07 -9.53279e-02 -611 2.779713e+07 -9.60797e-02 -612 2.805434e+07 -9.68319e-02 -613 2.831392e+07 -9.75845e-02 -614 2.857591e+07 -9.83374e-02 -615 2.884032e+07 -9.90905e-02 -616 2.910717e+07 -9.98437e-02 -617 2.937650e+07 -1.00597e-01 -618 2.964831e+07 -1.01350e-01 -619 2.992265e+07 -1.02103e-01 -620 3.019952e+07 -1.02856e-01 -621 3.047895e+07 -1.03608e-01 -622 3.076097e+07 -1.04360e-01 -623 3.104560e+07 -1.05111e-01 -624 3.133286e+07 -1.05862e-01 -625 3.162278e+07 -1.06612e-01 -626 3.191538e+07 -1.07362e-01 -627 3.221069e+07 -1.08110e-01 -628 3.250873e+07 -1.08858e-01 -629 3.280953e+07 -1.09605e-01 -630 3.311311e+07 -1.10350e-01 -631 3.341950e+07 -1.11095e-01 -632 3.372873e+07 -1.11838e-01 -633 3.404082e+07 -1.12580e-01 -634 3.435579e+07 -1.13321e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -635 3.467369e+07 -1.14060e-01 -636 3.499452e+07 -1.14798e-01 -637 3.531832e+07 -1.15534e-01 -638 3.564511e+07 -1.16269e-01 -639 3.597493e+07 -1.17002e-01 -640 3.630781e+07 -1.17734e-01 -641 3.664376e+07 -1.18464e-01 -642 3.698282e+07 -1.19192e-01 -643 3.732502e+07 -1.19918e-01 -644 3.767038e+07 -1.20643e-01 -645 3.801894e+07 -1.21365e-01 -646 3.837072e+07 -1.22086e-01 -647 3.872576e+07 -1.22805e-01 -648 3.908409e+07 -1.23522e-01 -649 3.944573e+07 -1.24237e-01 -650 3.981072e+07 -1.24950e-01 -651 4.017908e+07 -1.25660e-01 -652 4.055085e+07 -1.26369e-01 -653 4.092607e+07 -1.27076e-01 -654 4.130475e+07 -1.27780e-01 -655 4.168694e+07 -1.28483e-01 -656 4.207266e+07 -1.29183e-01 -657 4.246196e+07 -1.29882e-01 -658 4.285485e+07 -1.30578e-01 -659 4.325138e+07 -1.31272e-01 -660 4.365158e+07 -1.31964e-01 -661 4.405549e+07 -1.32654e-01 -662 4.446313e+07 -1.33342e-01 -663 4.487454e+07 -1.34028e-01 -664 4.528976e+07 -1.34711e-01 -665 4.570882e+07 -1.35393e-01 -666 4.613176e+07 -1.36073e-01 -667 4.655861e+07 -1.36750e-01 -668 4.698941e+07 -1.37426e-01 -669 4.742420e+07 -1.38100e-01 -670 4.786301e+07 -1.38771e-01 -671 4.830588e+07 -1.39441e-01 -672 4.875285e+07 -1.40109e-01 -673 4.920395e+07 -1.40775e-01 -674 4.965923e+07 -1.41440e-01 -675 5.011872e+07 -1.42102e-01 -676 5.058247e+07 -1.42763e-01 -677 5.105050e+07 -1.43422e-01 -678 5.152286e+07 -1.44080e-01 -679 5.199960e+07 -1.44736e-01 -680 5.248075e+07 -1.45390e-01 -681 5.296634e+07 -1.46043e-01 -682 5.345644e+07 -1.46695e-01 -683 5.395106e+07 -1.47345e-01 -684 5.445027e+07 -1.47994e-01 -685 5.495409e+07 -1.48642e-01 -686 5.546257e+07 -1.49288e-01 -687 5.597576e+07 -1.49934e-01 -688 5.649370e+07 -1.50578e-01 -689 5.701643e+07 -1.51222e-01 -690 5.754399e+07 -1.51864e-01 -691 5.807644e+07 -1.52506e-01 -692 5.861382e+07 -1.53147e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -693 5.915616e+07 -1.53787e-01 -694 5.970353e+07 -1.54427e-01 -695 6.025596e+07 -1.55066e-01 -696 6.081350e+07 -1.55705e-01 -697 6.137620e+07 -1.56343e-01 -698 6.194411e+07 -1.56981e-01 -699 6.251727e+07 -1.57619e-01 -700 6.309573e+07 -1.58257e-01 -701 6.367955e+07 -1.58894e-01 -702 6.426877e+07 -1.59532e-01 -703 6.486344e+07 -1.60170e-01 -704 6.546362e+07 -1.60808e-01 -705 6.606934e+07 -1.61447e-01 -706 6.668068e+07 -1.62085e-01 -707 6.729767e+07 -1.62725e-01 -708 6.792036e+07 -1.63365e-01 -709 6.854882e+07 -1.64006e-01 -710 6.918310e+07 -1.64647e-01 -711 6.982324e+07 -1.65290e-01 -712 7.046931e+07 -1.65933e-01 -713 7.112135e+07 -1.66578e-01 -714 7.177943e+07 -1.67224e-01 -715 7.244360e+07 -1.67871e-01 -716 7.311391e+07 -1.68519e-01 -717 7.379042e+07 -1.69169e-01 -718 7.447320e+07 -1.69821e-01 -719 7.516229e+07 -1.70474e-01 -720 7.585776e+07 -1.71129e-01 -721 7.655966e+07 -1.71787e-01 -722 7.726806e+07 -1.72446e-01 -723 7.798301e+07 -1.73107e-01 -724 7.870458e+07 -1.73770e-01 -725 7.943282e+07 -1.74436e-01 -726 8.016781e+07 -1.75104e-01 -727 8.090959e+07 -1.75775e-01 -728 8.165824e+07 -1.76449e-01 -729 8.241381e+07 -1.77125e-01 -730 8.317638e+07 -1.77804e-01 -731 8.394600e+07 -1.78486e-01 -732 8.472274e+07 -1.79172e-01 -733 8.550667e+07 -1.79860e-01 -734 8.629785e+07 -1.80552e-01 -735 8.709636e+07 -1.81247e-01 -736 8.790225e+07 -1.81946e-01 -737 8.871560e+07 -1.82648e-01 -738 8.953648e+07 -1.83354e-01 -739 9.036495e+07 -1.84064e-01 -740 9.120108e+07 -1.84778e-01 -741 9.204496e+07 -1.85496e-01 -742 9.289664e+07 -1.86219e-01 -743 9.375620e+07 -1.86945e-01 -744 9.462372e+07 -1.87676e-01 -745 9.549926e+07 -1.88411e-01 -746 9.638290e+07 -1.89152e-01 -747 9.727472e+07 -1.89896e-01 -748 9.817479e+07 -1.90646e-01 -749 9.908319e+07 -1.91400e-01 -750 1.000000e+08 -1.92160e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -751 1.009253e+08 -1.92925e-01 -752 1.018591e+08 -1.93695e-01 -753 1.028016e+08 -1.94470e-01 -754 1.037528e+08 -1.95251e-01 -755 1.047129e+08 -1.96037e-01 -756 1.056818e+08 -1.96829e-01 -757 1.066596e+08 -1.97627e-01 -758 1.076465e+08 -1.98431e-01 -759 1.086426e+08 -1.99240e-01 -760 1.096478e+08 -2.00056e-01 -761 1.106624e+08 -2.00878e-01 -762 1.116863e+08 -2.01706e-01 -763 1.127197e+08 -2.02541e-01 -764 1.137627e+08 -2.03381e-01 -765 1.148154e+08 -2.04229e-01 -766 1.158777e+08 -2.05083e-01 -767 1.169499e+08 -2.05944e-01 -768 1.180321e+08 -2.06811e-01 -769 1.191242e+08 -2.07686e-01 -770 1.202264e+08 -2.08567e-01 -771 1.213389e+08 -2.09455e-01 -772 1.224616e+08 -2.10351e-01 -773 1.235947e+08 -2.11254e-01 -774 1.247384e+08 -2.12164e-01 -775 1.258925e+08 -2.13081e-01 -776 1.270574e+08 -2.14006e-01 -777 1.282331e+08 -2.14938e-01 -778 1.294196e+08 -2.15878e-01 -779 1.306171e+08 -2.16825e-01 -780 1.318257e+08 -2.17780e-01 -781 1.330454e+08 -2.18742e-01 -782 1.342765e+08 -2.19713e-01 -783 1.355189e+08 -2.20691e-01 -784 1.367729e+08 -2.21677e-01 -785 1.380384e+08 -2.22671e-01 -786 1.393157e+08 -2.23673e-01 -787 1.406048e+08 -2.24682e-01 -788 1.419058e+08 -2.25700e-01 -789 1.432188e+08 -2.26726e-01 -790 1.445440e+08 -2.27759e-01 -791 1.458814e+08 -2.28801e-01 -792 1.472313e+08 -2.29850e-01 -793 1.485936e+08 -2.30908e-01 -794 1.499685e+08 -2.31973e-01 -795 1.513561e+08 -2.33047e-01 -796 1.527566e+08 -2.34128e-01 -797 1.541700e+08 -2.35218e-01 -798 1.555966e+08 -2.36315e-01 -799 1.570363e+08 -2.37420e-01 -800 1.584893e+08 -2.38533e-01 -801 1.599558e+08 -2.39654e-01 -802 1.614359e+08 -2.40783e-01 -803 1.629296e+08 -2.41919e-01 -804 1.644372e+08 -2.43063e-01 -805 1.659587e+08 -2.44214e-01 -806 1.674943e+08 -2.45373e-01 -807 1.690441e+08 -2.46540e-01 -808 1.706082e+08 -2.47713e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -809 1.721869e+08 -2.48894e-01 -810 1.737801e+08 -2.50082e-01 -811 1.753881e+08 -2.51278e-01 -812 1.770109e+08 -2.52480e-01 -813 1.786488e+08 -2.53689e-01 -814 1.803018e+08 -2.54905e-01 -815 1.819701e+08 -2.56127e-01 -816 1.836538e+08 -2.57357e-01 -817 1.853532e+08 -2.58592e-01 -818 1.870682e+08 -2.59835e-01 -819 1.887991e+08 -2.61083e-01 -820 1.905461e+08 -2.62338e-01 -821 1.923092e+08 -2.63599e-01 -822 1.940886e+08 -2.64866e-01 -823 1.958845e+08 -2.66139e-01 -824 1.976970e+08 -2.67417e-01 -825 1.995262e+08 -2.68702e-01 -826 2.013724e+08 -2.69992e-01 -827 2.032357e+08 -2.71288e-01 -828 2.051162e+08 -2.72590e-01 -829 2.070141e+08 -2.73897e-01 -830 2.089296e+08 -2.75210e-01 -831 2.108628e+08 -2.76528e-01 -832 2.128139e+08 -2.77852e-01 -833 2.147830e+08 -2.79181e-01 -834 2.167704e+08 -2.80516e-01 -835 2.187762e+08 -2.81856e-01 -836 2.208005e+08 -2.83202e-01 -837 2.228435e+08 -2.84554e-01 -838 2.249055e+08 -2.85911e-01 -839 2.269865e+08 -2.87274e-01 -840 2.290868e+08 -2.88642e-01 -841 2.312065e+08 -2.90017e-01 -842 2.333458e+08 -2.91397e-01 -843 2.355049e+08 -2.92784e-01 -844 2.376840e+08 -2.94177e-01 -845 2.398833e+08 -2.95576e-01 -846 2.421029e+08 -2.96981e-01 -847 2.443431e+08 -2.98393e-01 -848 2.466039e+08 -2.99812e-01 -849 2.488857e+08 -3.01237e-01 -850 2.511886e+08 -3.02670e-01 -851 2.535129e+08 -3.04109e-01 -852 2.558586e+08 -3.05555e-01 -853 2.582260e+08 -3.07009e-01 -854 2.606154e+08 -3.08470e-01 -855 2.630268e+08 -3.09938e-01 -856 2.654606e+08 -3.11414e-01 -857 2.679168e+08 -3.12897e-01 -858 2.703958e+08 -3.14388e-01 -859 2.728978e+08 -3.15885e-01 -860 2.754229e+08 -3.17391e-01 -861 2.779713e+08 -3.18903e-01 -862 2.805434e+08 -3.20423e-01 -863 2.831392e+08 -3.21950e-01 -864 2.857591e+08 -3.23484e-01 -865 2.884032e+08 -3.25024e-01 -866 2.910717e+08 -3.26572e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -867 2.937650e+08 -3.28125e-01 -868 2.964831e+08 -3.29685e-01 -869 2.992265e+08 -3.31250e-01 -870 3.019952e+08 -3.32821e-01 -871 3.047895e+08 -3.34398e-01 -872 3.076097e+08 -3.35979e-01 -873 3.104560e+08 -3.37565e-01 -874 3.133286e+08 -3.39156e-01 -875 3.162278e+08 -3.40751e-01 -876 3.191538e+08 -3.42349e-01 -877 3.221069e+08 -3.43952e-01 -878 3.250873e+08 -3.45558e-01 -879 3.280953e+08 -3.47168e-01 -880 3.311311e+08 -3.48781e-01 -881 3.341950e+08 -3.50398e-01 -882 3.372873e+08 -3.52018e-01 -883 3.404082e+08 -3.53641e-01 -884 3.435579e+08 -3.55268e-01 -885 3.467369e+08 -3.56899e-01 -886 3.499452e+08 -3.58534e-01 -887 3.531832e+08 -3.60174e-01 -888 3.564511e+08 -3.61819e-01 -889 3.597493e+08 -3.63470e-01 -890 3.630781e+08 -3.65126e-01 -891 3.664376e+08 -3.66789e-01 -892 3.698282e+08 -3.68460e-01 -893 3.732502e+08 -3.70138e-01 -894 3.767038e+08 -3.71824e-01 -895 3.801894e+08 -3.73520e-01 -896 3.837072e+08 -3.75226e-01 -897 3.872576e+08 -3.76941e-01 -898 3.908409e+08 -3.78668e-01 -899 3.944573e+08 -3.80405e-01 -900 3.981072e+08 -3.82153e-01 -901 4.017908e+08 -3.83914e-01 -902 4.055085e+08 -3.85685e-01 -903 4.092607e+08 -3.87469e-01 -904 4.130475e+08 -3.89263e-01 -905 4.168694e+08 -3.91069e-01 -906 4.207266e+08 -3.92885e-01 -907 4.246196e+08 -3.94711e-01 -908 4.285485e+08 -3.96546e-01 -909 4.325138e+08 -3.98390e-01 -910 4.365158e+08 -4.00242e-01 -911 4.405549e+08 -4.02101e-01 -912 4.446313e+08 -4.03966e-01 -913 4.487454e+08 -4.05837e-01 -914 4.528976e+08 -4.07712e-01 -915 4.570882e+08 -4.09592e-01 -916 4.613176e+08 -4.11477e-01 -917 4.655861e+08 -4.13365e-01 -918 4.698941e+08 -4.15256e-01 -919 4.742420e+08 -4.17152e-01 -920 4.786301e+08 -4.19053e-01 -921 4.830588e+08 -4.20959e-01 -922 4.875285e+08 -4.22871e-01 -923 4.920395e+08 -4.24790e-01 -924 4.965923e+08 -4.26718e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -925 5.011872e+08 -4.28656e-01 -926 5.058247e+08 -4.30605e-01 -927 5.105050e+08 -4.32567e-01 -928 5.152286e+08 -4.34543e-01 -929 5.199960e+08 -4.36534e-01 -930 5.248075e+08 -4.38541e-01 -931 5.296634e+08 -4.40565e-01 -932 5.345644e+08 -4.42606e-01 -933 5.395106e+08 -4.44664e-01 -934 5.445027e+08 -4.46738e-01 -935 5.495409e+08 -4.48828e-01 -936 5.546257e+08 -4.50933e-01 -937 5.597576e+08 -4.53051e-01 -938 5.649370e+08 -4.55180e-01 -939 5.701643e+08 -4.57319e-01 -940 5.754399e+08 -4.59465e-01 -941 5.807644e+08 -4.61617e-01 -942 5.861382e+08 -4.63774e-01 -943 5.915616e+08 -4.65933e-01 -944 5.970353e+08 -4.68096e-01 -945 6.025596e+08 -4.70260e-01 -946 6.081350e+08 -4.72427e-01 -947 6.137620e+08 -4.74598e-01 -948 6.194411e+08 -4.76774e-01 -949 6.251727e+08 -4.78957e-01 -950 6.309573e+08 -4.81150e-01 -951 6.367955e+08 -4.83355e-01 -952 6.426877e+08 -4.85575e-01 -953 6.486344e+08 -4.87812e-01 -954 6.546362e+08 -4.90068e-01 -955 6.606934e+08 -4.92346e-01 -956 6.668068e+08 -4.94644e-01 -957 6.729767e+08 -4.96964e-01 -958 6.792036e+08 -4.99304e-01 -959 6.854882e+08 -5.01662e-01 -960 6.918310e+08 -5.04036e-01 -961 6.982324e+08 -5.06422e-01 -962 7.046931e+08 -5.08816e-01 -963 7.112135e+08 -5.11216e-01 -964 7.177943e+08 -5.13618e-01 -965 7.244360e+08 -5.16020e-01 -966 7.311391e+08 -5.18420e-01 -967 7.379042e+08 -5.20819e-01 -968 7.447320e+08 -5.23217e-01 -969 7.516229e+08 -5.25617e-01 -970 7.585776e+08 -5.28022e-01 -971 7.655966e+08 -5.30437e-01 -972 7.726806e+08 -5.32866e-01 -973 7.798301e+08 -5.35314e-01 -974 7.870458e+08 -5.37783e-01 -975 7.943282e+08 -5.40278e-01 -976 8.016781e+08 -5.42798e-01 -977 8.090959e+08 -5.45342e-01 -978 8.165824e+08 -5.47909e-01 -979 8.241381e+08 -5.50493e-01 -980 8.317638e+08 -5.53089e-01 -981 8.394600e+08 -5.55692e-01 -982 8.472274e+08 -5.58296e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -983 8.550667e+08 -5.60896e-01 -984 8.629785e+08 -5.63490e-01 -985 8.709636e+08 -5.66077e-01 -986 8.790225e+08 -5.68659e-01 -987 8.871560e+08 -5.71241e-01 -988 8.953648e+08 -5.73829e-01 -989 9.036495e+08 -5.76429e-01 -990 9.120108e+08 -5.79050e-01 -991 9.204496e+08 -5.81696e-01 -992 9.289664e+08 -5.84372e-01 -993 9.375620e+08 -5.87078e-01 -994 9.462372e+08 -5.89813e-01 -995 9.549926e+08 -5.92569e-01 -996 9.638290e+08 -5.95340e-01 -997 9.727472e+08 -5.98116e-01 -998 9.817479e+08 -6.00889e-01 -999 9.908319e+08 -6.03653e-01 -1000 1.000000e+09 -6.06405e-01 - -CPU time since last call: 0.665 seconds. - -Total CPU time: 0.665 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4856.585938 MB. -Total ngspice program size = 7.640625 MB. -Resident set size = 1.346680 MB. -Shared ngspice pages = 533.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 903.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec deleted file mode 100644 index adca9af..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -SPACEWIRE_AWG_28_ESCC_3902003_V1 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec deleted file mode 100644 index 90dc205..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground.spice_model_spec +++ /dev/null @@ -1,84 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SPACEWIRE_AWG_28_ESCC_3902003_V1_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -dB # output type (lin or dB) --10 # order for vector fit model -log # frequency scale (log or lin) -1e5 1e9 100 # fmin fmax number_of_frequencies diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/analytic_solution.dat_reference deleted file mode 100644 index 59afca6..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/analytic_solution.dat_reference 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a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.01690733 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/spice_solution.dat_reference deleted file mode 100644 index f24571f..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1/spice_solution.dat_reference +++ /dev/null @@ -1,1159 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d10_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d9_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d8_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d7_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d6_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d5_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d4_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c13_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c12_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c11_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c10_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_14: has no value, DC 0 assumed -Warning: vl_13: has no value, DC 0 assumed -Warning: vl_12: has no value, DC 0 assumed -Warning: vl_11: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_14: has no value, DC 0 assumed -Warning: vs_13: has no value, DC 0 assumed -Warning: vs_12: has no value, DC 0 assumed -Warning: vs_11: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:05:50 2018 --------------------------------------------------------------------------------- -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -0 1.000000e+05 -2.21855e-02 -1 1.009253e+05 -2.21855e-02 -2 1.018591e+05 -2.21855e-02 -3 1.028016e+05 -2.21855e-02 -4 1.037528e+05 -2.21855e-02 -5 1.047129e+05 -2.21855e-02 -6 1.056818e+05 -2.21855e-02 -7 1.066596e+05 -2.21855e-02 -8 1.076465e+05 -2.21855e-02 -9 1.086426e+05 -2.21855e-02 -10 1.096478e+05 -2.21855e-02 -11 1.106624e+05 -2.21855e-02 -12 1.116863e+05 -2.21855e-02 -13 1.127197e+05 -2.21856e-02 -14 1.137627e+05 -2.21856e-02 -15 1.148154e+05 -2.21856e-02 -16 1.158777e+05 -2.21856e-02 -17 1.169499e+05 -2.21856e-02 -18 1.180321e+05 -2.21856e-02 -19 1.191242e+05 -2.21856e-02 -20 1.202264e+05 -2.21856e-02 -21 1.213389e+05 -2.21856e-02 -22 1.224616e+05 -2.21856e-02 -23 1.235947e+05 -2.21856e-02 -24 1.247384e+05 -2.21856e-02 -25 1.258925e+05 -2.21856e-02 -26 1.270574e+05 -2.21856e-02 -27 1.282331e+05 -2.21856e-02 -28 1.294196e+05 -2.21857e-02 -29 1.306171e+05 -2.21857e-02 -30 1.318257e+05 -2.21857e-02 -31 1.330454e+05 -2.21857e-02 -32 1.342765e+05 -2.21857e-02 -33 1.355189e+05 -2.21857e-02 -34 1.367729e+05 -2.21857e-02 -35 1.380384e+05 -2.21857e-02 -36 1.393157e+05 -2.21857e-02 -37 1.406048e+05 -2.21857e-02 -38 1.419058e+05 -2.21857e-02 -39 1.432188e+05 -2.21857e-02 -40 1.445440e+05 -2.21858e-02 -41 1.458814e+05 -2.21858e-02 -42 1.472313e+05 -2.21858e-02 -43 1.485936e+05 -2.21858e-02 -44 1.499685e+05 -2.21858e-02 -45 1.513561e+05 -2.21858e-02 -46 1.527566e+05 -2.21858e-02 -47 1.541700e+05 -2.21858e-02 -48 1.555966e+05 -2.21858e-02 -49 1.570363e+05 -2.21858e-02 -50 1.584893e+05 -2.21859e-02 -51 1.599558e+05 -2.21859e-02 -52 1.614359e+05 -2.21859e-02 -53 1.629296e+05 -2.21859e-02 -54 1.644372e+05 -2.21859e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -55 1.659587e+05 -2.21859e-02 -56 1.674943e+05 -2.21859e-02 -57 1.690441e+05 -2.21859e-02 -58 1.706082e+05 -2.21860e-02 -59 1.721869e+05 -2.21860e-02 -60 1.737801e+05 -2.21860e-02 -61 1.753881e+05 -2.21860e-02 -62 1.770109e+05 -2.21860e-02 -63 1.786488e+05 -2.21860e-02 -64 1.803018e+05 -2.21860e-02 -65 1.819701e+05 -2.21860e-02 -66 1.836538e+05 -2.21861e-02 -67 1.853532e+05 -2.21861e-02 -68 1.870682e+05 -2.21861e-02 -69 1.887991e+05 -2.21861e-02 -70 1.905461e+05 -2.21861e-02 -71 1.923092e+05 -2.21861e-02 -72 1.940886e+05 -2.21862e-02 -73 1.958845e+05 -2.21862e-02 -74 1.976970e+05 -2.21862e-02 -75 1.995262e+05 -2.21862e-02 -76 2.013724e+05 -2.21862e-02 -77 2.032357e+05 -2.21862e-02 -78 2.051162e+05 -2.21863e-02 -79 2.070141e+05 -2.21863e-02 -80 2.089296e+05 -2.21863e-02 -81 2.108628e+05 -2.21863e-02 -82 2.128139e+05 -2.21863e-02 -83 2.147830e+05 -2.21864e-02 -84 2.167704e+05 -2.21864e-02 -85 2.187762e+05 -2.21864e-02 -86 2.208005e+05 -2.21864e-02 -87 2.228435e+05 -2.21864e-02 -88 2.249055e+05 -2.21865e-02 -89 2.269865e+05 -2.21865e-02 -90 2.290868e+05 -2.21865e-02 -91 2.312065e+05 -2.21865e-02 -92 2.333458e+05 -2.21866e-02 -93 2.355049e+05 -2.21866e-02 -94 2.376840e+05 -2.21866e-02 -95 2.398833e+05 -2.21866e-02 -96 2.421029e+05 -2.21867e-02 -97 2.443431e+05 -2.21867e-02 -98 2.466039e+05 -2.21867e-02 -99 2.488857e+05 -2.21867e-02 -100 2.511886e+05 -2.21868e-02 -101 2.535129e+05 -2.21868e-02 -102 2.558586e+05 -2.21868e-02 -103 2.582260e+05 -2.21869e-02 -104 2.606154e+05 -2.21869e-02 -105 2.630268e+05 -2.21869e-02 -106 2.654606e+05 -2.21870e-02 -107 2.679168e+05 -2.21870e-02 -108 2.703958e+05 -2.21870e-02 -109 2.728978e+05 -2.21871e-02 -110 2.754229e+05 -2.21871e-02 -111 2.779713e+05 -2.21871e-02 -112 2.805434e+05 -2.21872e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -113 2.831392e+05 -2.21872e-02 -114 2.857591e+05 -2.21872e-02 -115 2.884032e+05 -2.21873e-02 -116 2.910717e+05 -2.21873e-02 -117 2.937650e+05 -2.21873e-02 -118 2.964831e+05 -2.21874e-02 -119 2.992265e+05 -2.21874e-02 -120 3.019952e+05 -2.21875e-02 -121 3.047895e+05 -2.21875e-02 -122 3.076097e+05 -2.21875e-02 -123 3.104560e+05 -2.21876e-02 -124 3.133286e+05 -2.21876e-02 -125 3.162278e+05 -2.21877e-02 -126 3.191538e+05 -2.21877e-02 -127 3.221069e+05 -2.21878e-02 -128 3.250873e+05 -2.21878e-02 -129 3.280953e+05 -2.21879e-02 -130 3.311311e+05 -2.21879e-02 -131 3.341950e+05 -2.21880e-02 -132 3.372873e+05 -2.21880e-02 -133 3.404082e+05 -2.21881e-02 -134 3.435579e+05 -2.21881e-02 -135 3.467369e+05 -2.21882e-02 -136 3.499452e+05 -2.21882e-02 -137 3.531832e+05 -2.21883e-02 -138 3.564511e+05 -2.21883e-02 -139 3.597493e+05 -2.21884e-02 -140 3.630781e+05 -2.21884e-02 -141 3.664376e+05 -2.21885e-02 -142 3.698282e+05 -2.21886e-02 -143 3.732502e+05 -2.21886e-02 -144 3.767038e+05 -2.21887e-02 -145 3.801894e+05 -2.21887e-02 -146 3.837072e+05 -2.21888e-02 -147 3.872576e+05 -2.21889e-02 -148 3.908409e+05 -2.21889e-02 -149 3.944573e+05 -2.21890e-02 -150 3.981072e+05 -2.21891e-02 -151 4.017908e+05 -2.21892e-02 -152 4.055085e+05 -2.21892e-02 -153 4.092607e+05 -2.21893e-02 -154 4.130475e+05 -2.21894e-02 -155 4.168694e+05 -2.21895e-02 -156 4.207266e+05 -2.21895e-02 -157 4.246196e+05 -2.21896e-02 -158 4.285485e+05 -2.21897e-02 -159 4.325138e+05 -2.21898e-02 -160 4.365158e+05 -2.21899e-02 -161 4.405549e+05 -2.21900e-02 -162 4.446313e+05 -2.21900e-02 -163 4.487454e+05 -2.21901e-02 -164 4.528976e+05 -2.21902e-02 -165 4.570882e+05 -2.21903e-02 -166 4.613176e+05 -2.21904e-02 -167 4.655861e+05 -2.21905e-02 -168 4.698941e+05 -2.21906e-02 -169 4.742420e+05 -2.21907e-02 -170 4.786301e+05 -2.21908e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -171 4.830588e+05 -2.21909e-02 -172 4.875285e+05 -2.21910e-02 -173 4.920395e+05 -2.21911e-02 -174 4.965923e+05 -2.21912e-02 -175 5.011872e+05 -2.21913e-02 -176 5.058247e+05 -2.21914e-02 -177 5.105050e+05 -2.21916e-02 -178 5.152286e+05 -2.21917e-02 -179 5.199960e+05 -2.21918e-02 -180 5.248075e+05 -2.21919e-02 -181 5.296634e+05 -2.21920e-02 -182 5.345644e+05 -2.21922e-02 -183 5.395106e+05 -2.21923e-02 -184 5.445027e+05 -2.21924e-02 -185 5.495409e+05 -2.21926e-02 -186 5.546257e+05 -2.21927e-02 -187 5.597576e+05 -2.21928e-02 -188 5.649370e+05 -2.21930e-02 -189 5.701643e+05 -2.21931e-02 -190 5.754399e+05 -2.21933e-02 -191 5.807644e+05 -2.21934e-02 -192 5.861382e+05 -2.21936e-02 -193 5.915616e+05 -2.21937e-02 -194 5.970353e+05 -2.21939e-02 -195 6.025596e+05 -2.21940e-02 -196 6.081350e+05 -2.21942e-02 -197 6.137620e+05 -2.21944e-02 -198 6.194411e+05 -2.21945e-02 -199 6.251727e+05 -2.21947e-02 -200 6.309573e+05 -2.21949e-02 -201 6.367955e+05 -2.21951e-02 -202 6.426877e+05 -2.21953e-02 -203 6.486344e+05 -2.21954e-02 -204 6.546362e+05 -2.21956e-02 -205 6.606934e+05 -2.21958e-02 -206 6.668068e+05 -2.21960e-02 -207 6.729767e+05 -2.21962e-02 -208 6.792036e+05 -2.21964e-02 -209 6.854882e+05 -2.21966e-02 -210 6.918310e+05 -2.21969e-02 -211 6.982324e+05 -2.21971e-02 -212 7.046931e+05 -2.21973e-02 -213 7.112135e+05 -2.21975e-02 -214 7.177943e+05 -2.21977e-02 -215 7.244360e+05 -2.21980e-02 -216 7.311391e+05 -2.21982e-02 -217 7.379042e+05 -2.21984e-02 -218 7.447320e+05 -2.21987e-02 -219 7.516229e+05 -2.21989e-02 -220 7.585776e+05 -2.21992e-02 -221 7.655966e+05 -2.21995e-02 -222 7.726806e+05 -2.21997e-02 -223 7.798301e+05 -2.22000e-02 -224 7.870458e+05 -2.22003e-02 -225 7.943282e+05 -2.22005e-02 -226 8.016781e+05 -2.22008e-02 -227 8.090959e+05 -2.22011e-02 -228 8.165824e+05 -2.22014e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -229 8.241381e+05 -2.22017e-02 -230 8.317638e+05 -2.22020e-02 -231 8.394600e+05 -2.22023e-02 -232 8.472274e+05 -2.22027e-02 -233 8.550667e+05 -2.22030e-02 -234 8.629785e+05 -2.22033e-02 -235 8.709636e+05 -2.22036e-02 -236 8.790225e+05 -2.22040e-02 -237 8.871560e+05 -2.22043e-02 -238 8.953648e+05 -2.22047e-02 -239 9.036495e+05 -2.22050e-02 -240 9.120108e+05 -2.22054e-02 -241 9.204496e+05 -2.22058e-02 -242 9.289664e+05 -2.22062e-02 -243 9.375620e+05 -2.22066e-02 -244 9.462372e+05 -2.22070e-02 -245 9.549926e+05 -2.22074e-02 -246 9.638290e+05 -2.22078e-02 -247 9.727472e+05 -2.22082e-02 -248 9.817479e+05 -2.22086e-02 -249 9.908319e+05 -2.22091e-02 -250 1.000000e+06 -2.22095e-02 -251 1.009253e+06 -2.22099e-02 -252 1.018591e+06 -2.22104e-02 -253 1.028016e+06 -2.22109e-02 -254 1.037528e+06 -2.22113e-02 -255 1.047129e+06 -2.22118e-02 -256 1.056818e+06 -2.22123e-02 -257 1.066596e+06 -2.22128e-02 -258 1.076465e+06 -2.22133e-02 -259 1.086426e+06 -2.22139e-02 -260 1.096478e+06 -2.22144e-02 -261 1.106624e+06 -2.22149e-02 -262 1.116863e+06 -2.22155e-02 -263 1.127197e+06 -2.22161e-02 -264 1.137627e+06 -2.22166e-02 -265 1.148154e+06 -2.22172e-02 -266 1.158777e+06 -2.22178e-02 -267 1.169499e+06 -2.22184e-02 -268 1.180321e+06 -2.22190e-02 -269 1.191242e+06 -2.22197e-02 -270 1.202264e+06 -2.22203e-02 -271 1.213389e+06 -2.22209e-02 -272 1.224616e+06 -2.22216e-02 -273 1.235947e+06 -2.22223e-02 -274 1.247384e+06 -2.22230e-02 -275 1.258925e+06 -2.22237e-02 -276 1.270574e+06 -2.22244e-02 -277 1.282331e+06 -2.22251e-02 -278 1.294196e+06 -2.22259e-02 -279 1.306171e+06 -2.22266e-02 -280 1.318257e+06 -2.22274e-02 -281 1.330454e+06 -2.22282e-02 -282 1.342765e+06 -2.22290e-02 -283 1.355189e+06 -2.22298e-02 -284 1.367729e+06 -2.22306e-02 -285 1.380384e+06 -2.22314e-02 -286 1.393157e+06 -2.22323e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -287 1.406048e+06 -2.22332e-02 -288 1.419058e+06 -2.22341e-02 -289 1.432188e+06 -2.22350e-02 -290 1.445440e+06 -2.22359e-02 -291 1.458814e+06 -2.22368e-02 -292 1.472313e+06 -2.22378e-02 -293 1.485936e+06 -2.22388e-02 -294 1.499685e+06 -2.22398e-02 -295 1.513561e+06 -2.22408e-02 -296 1.527566e+06 -2.22418e-02 -297 1.541700e+06 -2.22429e-02 -298 1.555966e+06 -2.22440e-02 -299 1.570363e+06 -2.22450e-02 -300 1.584893e+06 -2.22462e-02 -301 1.599558e+06 -2.22473e-02 -302 1.614359e+06 -2.22484e-02 -303 1.629296e+06 -2.22496e-02 -304 1.644372e+06 -2.22508e-02 -305 1.659587e+06 -2.22520e-02 -306 1.674943e+06 -2.22533e-02 -307 1.690441e+06 -2.22545e-02 -308 1.706082e+06 -2.22558e-02 -309 1.721869e+06 -2.22571e-02 -310 1.737801e+06 -2.22585e-02 -311 1.753881e+06 -2.22598e-02 -312 1.770109e+06 -2.22612e-02 -313 1.786488e+06 -2.22626e-02 -314 1.803018e+06 -2.22641e-02 -315 1.819701e+06 -2.22655e-02 -316 1.836538e+06 -2.22670e-02 -317 1.853532e+06 -2.22685e-02 -318 1.870682e+06 -2.22701e-02 -319 1.887991e+06 -2.22717e-02 -320 1.905461e+06 -2.22733e-02 -321 1.923092e+06 -2.22749e-02 -322 1.940886e+06 -2.22766e-02 -323 1.958845e+06 -2.22783e-02 -324 1.976970e+06 -2.22800e-02 -325 1.995262e+06 -2.22818e-02 -326 2.013724e+06 -2.22836e-02 -327 2.032357e+06 -2.22854e-02 -328 2.051162e+06 -2.22873e-02 -329 2.070141e+06 -2.22892e-02 -330 2.089296e+06 -2.22911e-02 -331 2.108628e+06 -2.22930e-02 -332 2.128139e+06 -2.22951e-02 -333 2.147830e+06 -2.22971e-02 -334 2.167704e+06 -2.22992e-02 -335 2.187762e+06 -2.23013e-02 -336 2.208005e+06 -2.23034e-02 -337 2.228435e+06 -2.23056e-02 -338 2.249055e+06 -2.23079e-02 -339 2.269865e+06 -2.23102e-02 -340 2.290868e+06 -2.23125e-02 -341 2.312065e+06 -2.23148e-02 -342 2.333458e+06 -2.23173e-02 -343 2.355049e+06 -2.23197e-02 -344 2.376840e+06 -2.23222e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -345 2.398833e+06 -2.23248e-02 -346 2.421029e+06 -2.23273e-02 -347 2.443431e+06 -2.23300e-02 -348 2.466039e+06 -2.23327e-02 -349 2.488857e+06 -2.23354e-02 -350 2.511886e+06 -2.23382e-02 -351 2.535129e+06 -2.23411e-02 -352 2.558586e+06 -2.23439e-02 -353 2.582260e+06 -2.23469e-02 -354 2.606154e+06 -2.23499e-02 -355 2.630268e+06 -2.23530e-02 -356 2.654606e+06 -2.23561e-02 -357 2.679168e+06 -2.23593e-02 -358 2.703958e+06 -2.23625e-02 -359 2.728978e+06 -2.23658e-02 -360 2.754229e+06 -2.23691e-02 -361 2.779713e+06 -2.23726e-02 -362 2.805434e+06 -2.23760e-02 -363 2.831392e+06 -2.23796e-02 -364 2.857591e+06 -2.23832e-02 -365 2.884032e+06 -2.23869e-02 -366 2.910717e+06 -2.23906e-02 -367 2.937650e+06 -2.23944e-02 -368 2.964831e+06 -2.23983e-02 -369 2.992265e+06 -2.24023e-02 -370 3.019952e+06 -2.24063e-02 -371 3.047895e+06 -2.24104e-02 -372 3.076097e+06 -2.24146e-02 -373 3.104560e+06 -2.24189e-02 -374 3.133286e+06 -2.24232e-02 -375 3.162278e+06 -2.24276e-02 -376 3.191538e+06 -2.24321e-02 -377 3.221069e+06 -2.24367e-02 -378 3.250873e+06 -2.24414e-02 -379 3.280953e+06 -2.24462e-02 -380 3.311311e+06 -2.24510e-02 -381 3.341950e+06 -2.24559e-02 -382 3.372873e+06 -2.24610e-02 -383 3.404082e+06 -2.24661e-02 -384 3.435579e+06 -2.24713e-02 -385 3.467369e+06 -2.24766e-02 -386 3.499452e+06 -2.24820e-02 -387 3.531832e+06 -2.24876e-02 -388 3.564511e+06 -2.24932e-02 -389 3.597493e+06 -2.24989e-02 -390 3.630781e+06 -2.25047e-02 -391 3.664376e+06 -2.25107e-02 -392 3.698282e+06 -2.25167e-02 -393 3.732502e+06 -2.25229e-02 -394 3.767038e+06 -2.25291e-02 -395 3.801894e+06 -2.25355e-02 -396 3.837072e+06 -2.25420e-02 -397 3.872576e+06 -2.25487e-02 -398 3.908409e+06 -2.25554e-02 -399 3.944573e+06 -2.25623e-02 -400 3.981072e+06 -2.25693e-02 -401 4.017908e+06 -2.25764e-02 -402 4.055085e+06 -2.25837e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -403 4.092607e+06 -2.25911e-02 -404 4.130475e+06 -2.25986e-02 -405 4.168694e+06 -2.26063e-02 -406 4.207266e+06 -2.26141e-02 -407 4.246196e+06 -2.26221e-02 -408 4.285485e+06 -2.26302e-02 -409 4.325138e+06 -2.26385e-02 -410 4.365158e+06 -2.26469e-02 -411 4.405549e+06 -2.26555e-02 -412 4.446313e+06 -2.26642e-02 -413 4.487454e+06 -2.26731e-02 -414 4.528976e+06 -2.26822e-02 -415 4.570882e+06 -2.26914e-02 -416 4.613176e+06 -2.27008e-02 -417 4.655861e+06 -2.27104e-02 -418 4.698941e+06 -2.27201e-02 -419 4.742420e+06 -2.27300e-02 -420 4.786301e+06 -2.27402e-02 -421 4.830588e+06 -2.27505e-02 -422 4.875285e+06 -2.27610e-02 -423 4.920395e+06 -2.27717e-02 -424 4.965923e+06 -2.27825e-02 -425 5.011872e+06 -2.27936e-02 -426 5.058247e+06 -2.28049e-02 -427 5.105050e+06 -2.28164e-02 -428 5.152286e+06 -2.28282e-02 -429 5.199960e+06 -2.28401e-02 -430 5.248075e+06 -2.28522e-02 -431 5.296634e+06 -2.28646e-02 -432 5.345644e+06 -2.28772e-02 -433 5.395106e+06 -2.28901e-02 -434 5.445027e+06 -2.29032e-02 -435 5.495409e+06 -2.29165e-02 -436 5.546257e+06 -2.29301e-02 -437 5.597576e+06 -2.29439e-02 -438 5.649370e+06 -2.29580e-02 -439 5.701643e+06 -2.29723e-02 -440 5.754399e+06 -2.29869e-02 -441 5.807644e+06 -2.30018e-02 -442 5.861382e+06 -2.30170e-02 -443 5.915616e+06 -2.30324e-02 -444 5.970353e+06 -2.30481e-02 -445 6.025596e+06 -2.30641e-02 -446 6.081350e+06 -2.30804e-02 -447 6.137620e+06 -2.30970e-02 -448 6.194411e+06 -2.31140e-02 -449 6.251727e+06 -2.31312e-02 -450 6.309573e+06 -2.31487e-02 -451 6.367955e+06 -2.31666e-02 -452 6.426877e+06 -2.31848e-02 -453 6.486344e+06 -2.32034e-02 -454 6.546362e+06 -2.32223e-02 -455 6.606934e+06 -2.32415e-02 -456 6.668068e+06 -2.32611e-02 -457 6.729767e+06 -2.32810e-02 -458 6.792036e+06 -2.33014e-02 -459 6.854882e+06 -2.33221e-02 -460 6.918310e+06 -2.33432e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -461 6.982324e+06 -2.33646e-02 -462 7.046931e+06 -2.33865e-02 -463 7.112135e+06 -2.34088e-02 -464 7.177943e+06 -2.34315e-02 -465 7.244360e+06 -2.34546e-02 -466 7.311391e+06 -2.34781e-02 -467 7.379042e+06 -2.35021e-02 -468 7.447320e+06 -2.35265e-02 -469 7.516229e+06 -2.35513e-02 -470 7.585776e+06 -2.35767e-02 -471 7.655966e+06 -2.36025e-02 -472 7.726806e+06 -2.36287e-02 -473 7.798301e+06 -2.36555e-02 -474 7.870458e+06 -2.36827e-02 -475 7.943282e+06 -2.37105e-02 -476 8.016781e+06 -2.37387e-02 -477 8.090959e+06 -2.37675e-02 -478 8.165824e+06 -2.37968e-02 -479 8.241381e+06 -2.38267e-02 -480 8.317638e+06 -2.38571e-02 -481 8.394600e+06 -2.38881e-02 -482 8.472274e+06 -2.39196e-02 -483 8.550667e+06 -2.39518e-02 -484 8.629785e+06 -2.39845e-02 -485 8.709636e+06 -2.40178e-02 -486 8.790225e+06 -2.40517e-02 -487 8.871560e+06 -2.40863e-02 -488 8.953648e+06 -2.41215e-02 -489 9.036495e+06 -2.41573e-02 -490 9.120108e+06 -2.41938e-02 -491 9.204496e+06 -2.42310e-02 -492 9.289664e+06 -2.42689e-02 -493 9.375620e+06 -2.43075e-02 -494 9.462372e+06 -2.43467e-02 -495 9.549926e+06 -2.43867e-02 -496 9.638290e+06 -2.44275e-02 -497 9.727472e+06 -2.44689e-02 -498 9.817479e+06 -2.45112e-02 -499 9.908319e+06 -2.45542e-02 -500 1.000000e+07 -2.45980e-02 -501 1.009253e+07 -2.46427e-02 -502 1.018591e+07 -2.46881e-02 -503 1.028016e+07 -2.47344e-02 -504 1.037528e+07 -2.47815e-02 -505 1.047129e+07 -2.48295e-02 -506 1.056818e+07 -2.48784e-02 -507 1.066596e+07 -2.49282e-02 -508 1.076465e+07 -2.49789e-02 -509 1.086426e+07 -2.50305e-02 -510 1.096478e+07 -2.50831e-02 -511 1.106624e+07 -2.51366e-02 -512 1.116863e+07 -2.51911e-02 -513 1.127197e+07 -2.52467e-02 -514 1.137627e+07 -2.53032e-02 -515 1.148154e+07 -2.53608e-02 -516 1.158777e+07 -2.54194e-02 -517 1.169499e+07 -2.54791e-02 -518 1.180321e+07 -2.55399e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -519 1.191242e+07 -2.56019e-02 -520 1.202264e+07 -2.56649e-02 -521 1.213389e+07 -2.57291e-02 -522 1.224616e+07 -2.57945e-02 -523 1.235947e+07 -2.58611e-02 -524 1.247384e+07 -2.59289e-02 -525 1.258925e+07 -2.59979e-02 -526 1.270574e+07 -2.60682e-02 -527 1.282331e+07 -2.61398e-02 -528 1.294196e+07 -2.62127e-02 -529 1.306171e+07 -2.62869e-02 -530 1.318257e+07 -2.63625e-02 -531 1.330454e+07 -2.64395e-02 -532 1.342765e+07 -2.65178e-02 -533 1.355189e+07 -2.65976e-02 -534 1.367729e+07 -2.66789e-02 -535 1.380384e+07 -2.67616e-02 -536 1.393157e+07 -2.68459e-02 -537 1.406048e+07 -2.69317e-02 -538 1.419058e+07 -2.70190e-02 -539 1.432188e+07 -2.71079e-02 -540 1.445440e+07 -2.71985e-02 -541 1.458814e+07 -2.72907e-02 -542 1.472313e+07 -2.73846e-02 -543 1.485936e+07 -2.74802e-02 -544 1.499685e+07 -2.75775e-02 -545 1.513561e+07 -2.76766e-02 -546 1.527566e+07 -2.77774e-02 -547 1.541700e+07 -2.78802e-02 -548 1.555966e+07 -2.79847e-02 -549 1.570363e+07 -2.80912e-02 -550 1.584893e+07 -2.81996e-02 -551 1.599558e+07 -2.83100e-02 -552 1.614359e+07 -2.84224e-02 -553 1.629296e+07 -2.85368e-02 -554 1.644372e+07 -2.86532e-02 -555 1.659587e+07 -2.87718e-02 -556 1.674943e+07 -2.88925e-02 -557 1.690441e+07 -2.90154e-02 -558 1.706082e+07 -2.91406e-02 -559 1.721869e+07 -2.92679e-02 -560 1.737801e+07 -2.93976e-02 -561 1.753881e+07 -2.95296e-02 -562 1.770109e+07 -2.96640e-02 -563 1.786488e+07 -2.98008e-02 -564 1.803018e+07 -2.99401e-02 -565 1.819701e+07 -3.00819e-02 -566 1.836538e+07 -3.02262e-02 -567 1.853532e+07 -3.03731e-02 -568 1.870682e+07 -3.05226e-02 -569 1.887991e+07 -3.06749e-02 -570 1.905461e+07 -3.08298e-02 -571 1.923092e+07 -3.09876e-02 -572 1.940886e+07 -3.11481e-02 -573 1.958845e+07 -3.13115e-02 -574 1.976970e+07 -3.14779e-02 -575 1.995262e+07 -3.16472e-02 -576 2.013724e+07 -3.18195e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -577 2.032357e+07 -3.19949e-02 -578 2.051162e+07 -3.21735e-02 -579 2.070141e+07 -3.23552e-02 -580 2.089296e+07 -3.25401e-02 -581 2.108628e+07 -3.27284e-02 -582 2.128139e+07 -3.29199e-02 -583 2.147830e+07 -3.31149e-02 -584 2.167704e+07 -3.33133e-02 -585 2.187762e+07 -3.35153e-02 -586 2.208005e+07 -3.37208e-02 -587 2.228435e+07 -3.39300e-02 -588 2.249055e+07 -3.41428e-02 -589 2.269865e+07 -3.43594e-02 -590 2.290868e+07 -3.45798e-02 -591 2.312065e+07 -3.48041e-02 -592 2.333458e+07 -3.50324e-02 -593 2.355049e+07 -3.52646e-02 -594 2.376840e+07 -3.55010e-02 -595 2.398833e+07 -3.57414e-02 -596 2.421029e+07 -3.59861e-02 -597 2.443431e+07 -3.62351e-02 -598 2.466039e+07 -3.64884e-02 -599 2.488857e+07 -3.67462e-02 -600 2.511886e+07 -3.70085e-02 -601 2.535129e+07 -3.72753e-02 -602 2.558586e+07 -3.75467e-02 -603 2.582260e+07 -3.78229e-02 -604 2.606154e+07 -3.81039e-02 -605 2.630268e+07 -3.83897e-02 -606 2.654606e+07 -3.86805e-02 -607 2.679168e+07 -3.89763e-02 -608 2.703958e+07 -3.92772e-02 -609 2.728978e+07 -3.95834e-02 -610 2.754229e+07 -3.98947e-02 -611 2.779713e+07 -4.02115e-02 -612 2.805434e+07 -4.05337e-02 -613 2.831392e+07 -4.08613e-02 -614 2.857591e+07 -4.11947e-02 -615 2.884032e+07 -4.15337e-02 -616 2.910717e+07 -4.18784e-02 -617 2.937650e+07 -4.22291e-02 -618 2.964831e+07 -4.25857e-02 -619 2.992265e+07 -4.29484e-02 -620 3.019952e+07 -4.33172e-02 -621 3.047895e+07 -4.36923e-02 -622 3.076097e+07 -4.40737e-02 -623 3.104560e+07 -4.44616e-02 -624 3.133286e+07 -4.48559e-02 -625 3.162278e+07 -4.52569e-02 -626 3.191538e+07 -4.56646e-02 -627 3.221069e+07 -4.60792e-02 -628 3.250873e+07 -4.65006e-02 -629 3.280953e+07 -4.69291e-02 -630 3.311311e+07 -4.73648e-02 -631 3.341950e+07 -4.78076e-02 -632 3.372873e+07 -4.82578e-02 -633 3.404082e+07 -4.87155e-02 -634 3.435579e+07 -4.91807e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -635 3.467369e+07 -4.96535e-02 -636 3.499452e+07 -5.01341e-02 -637 3.531832e+07 -5.06226e-02 -638 3.564511e+07 -5.11191e-02 -639 3.597493e+07 -5.16237e-02 -640 3.630781e+07 -5.21365e-02 -641 3.664376e+07 -5.26576e-02 -642 3.698282e+07 -5.31872e-02 -643 3.732502e+07 -5.37253e-02 -644 3.767038e+07 -5.42720e-02 -645 3.801894e+07 -5.48276e-02 -646 3.837072e+07 -5.53920e-02 -647 3.872576e+07 -5.59655e-02 -648 3.908409e+07 -5.65481e-02 -649 3.944573e+07 -5.71400e-02 -650 3.981072e+07 -5.77412e-02 -651 4.017908e+07 -5.83520e-02 -652 4.055085e+07 -5.89723e-02 -653 4.092607e+07 -5.96024e-02 -654 4.130475e+07 -6.02423e-02 -655 4.168694e+07 -6.08923e-02 -656 4.207266e+07 -6.15523e-02 -657 4.246196e+07 -6.22226e-02 -658 4.285485e+07 -6.29032e-02 -659 4.325138e+07 -6.35943e-02 -660 4.365158e+07 -6.42959e-02 -661 4.405549e+07 -6.50083e-02 -662 4.446313e+07 -6.57316e-02 -663 4.487454e+07 -6.64658e-02 -664 4.528976e+07 -6.72112e-02 -665 4.570882e+07 -6.79677e-02 -666 4.613176e+07 -6.87356e-02 -667 4.655861e+07 -6.95149e-02 -668 4.698941e+07 -7.03059e-02 -669 4.742420e+07 -7.11086e-02 -670 4.786301e+07 -7.19231e-02 -671 4.830588e+07 -7.27496e-02 -672 4.875285e+07 -7.35881e-02 -673 4.920395e+07 -7.44389e-02 -674 4.965923e+07 -7.53020e-02 -675 5.011872e+07 -7.61776e-02 -676 5.058247e+07 -7.70657e-02 -677 5.105050e+07 -7.79665e-02 -678 5.152286e+07 -7.88802e-02 -679 5.199960e+07 -7.98067e-02 -680 5.248075e+07 -8.07463e-02 -681 5.296634e+07 -8.16991e-02 -682 5.345644e+07 -8.26652e-02 -683 5.395106e+07 -8.36446e-02 -684 5.445027e+07 -8.46375e-02 -685 5.495409e+07 -8.56441e-02 -686 5.546257e+07 -8.66644e-02 -687 5.597576e+07 -8.76985e-02 -688 5.649370e+07 -8.87465e-02 -689 5.701643e+07 -8.98086e-02 -690 5.754399e+07 -9.08848e-02 -691 5.807644e+07 -9.19752e-02 -692 5.861382e+07 -9.30800e-02 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -693 5.915616e+07 -9.41992e-02 -694 5.970353e+07 -9.53330e-02 -695 6.025596e+07 -9.64813e-02 -696 6.081350e+07 -9.76444e-02 -697 6.137620e+07 -9.88222e-02 -698 6.194411e+07 -1.00015e-01 -699 6.251727e+07 -1.01223e-01 -700 6.309573e+07 -1.02445e-01 -701 6.367955e+07 -1.03683e-01 -702 6.426877e+07 -1.04936e-01 -703 6.486344e+07 -1.06204e-01 -704 6.546362e+07 -1.07488e-01 -705 6.606934e+07 -1.08787e-01 -706 6.668068e+07 -1.10101e-01 -707 6.729767e+07 -1.11431e-01 -708 6.792036e+07 -1.12776e-01 -709 6.854882e+07 -1.14137e-01 -710 6.918310e+07 -1.15513e-01 -711 6.982324e+07 -1.16905e-01 -712 7.046931e+07 -1.18313e-01 -713 7.112135e+07 -1.19737e-01 -714 7.177943e+07 -1.21176e-01 -715 7.244360e+07 -1.22631e-01 -716 7.311391e+07 -1.24101e-01 -717 7.379042e+07 -1.25588e-01 -718 7.447320e+07 -1.27090e-01 -719 7.516229e+07 -1.28608e-01 -720 7.585776e+07 -1.30142e-01 -721 7.655966e+07 -1.31692e-01 -722 7.726806e+07 -1.33257e-01 -723 7.798301e+07 -1.34839e-01 -724 7.870458e+07 -1.36435e-01 -725 7.943282e+07 -1.38048e-01 -726 8.016781e+07 -1.39676e-01 -727 8.090959e+07 -1.41320e-01 -728 8.165824e+07 -1.42979e-01 -729 8.241381e+07 -1.44654e-01 -730 8.317638e+07 -1.46345e-01 -731 8.394600e+07 -1.48050e-01 -732 8.472274e+07 -1.49771e-01 -733 8.550667e+07 -1.51508e-01 -734 8.629785e+07 -1.53259e-01 -735 8.709636e+07 -1.55026e-01 -736 8.790225e+07 -1.56807e-01 -737 8.871560e+07 -1.58604e-01 -738 8.953648e+07 -1.60415e-01 -739 9.036495e+07 -1.62241e-01 -740 9.120108e+07 -1.64081e-01 -741 9.204496e+07 -1.65936e-01 -742 9.289664e+07 -1.67805e-01 -743 9.375620e+07 -1.69689e-01 -744 9.462372e+07 -1.71586e-01 -745 9.549926e+07 -1.73498e-01 -746 9.638290e+07 -1.75423e-01 -747 9.727472e+07 -1.77361e-01 -748 9.817479e+07 -1.79313e-01 -749 9.908319e+07 -1.81279e-01 -750 1.000000e+08 -1.83257e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -751 1.009253e+08 -1.85249e-01 -752 1.018591e+08 -1.87253e-01 -753 1.028016e+08 -1.89269e-01 -754 1.037528e+08 -1.91298e-01 -755 1.047129e+08 -1.93339e-01 -756 1.056818e+08 -1.95392e-01 -757 1.066596e+08 -1.97457e-01 -758 1.076465e+08 -1.99533e-01 -759 1.086426e+08 -2.01620e-01 -760 1.096478e+08 -2.03719e-01 -761 1.106624e+08 -2.05828e-01 -762 1.116863e+08 -2.07948e-01 -763 1.127197e+08 -2.10078e-01 -764 1.137627e+08 -2.12218e-01 -765 1.148154e+08 -2.14369e-01 -766 1.158777e+08 -2.16528e-01 -767 1.169499e+08 -2.18697e-01 -768 1.180321e+08 -2.20875e-01 -769 1.191242e+08 -2.23062e-01 -770 1.202264e+08 -2.25257e-01 -771 1.213389e+08 -2.27461e-01 -772 1.224616e+08 -2.29672e-01 -773 1.235947e+08 -2.31892e-01 -774 1.247384e+08 -2.34118e-01 -775 1.258925e+08 -2.36352e-01 -776 1.270574e+08 -2.38592e-01 -777 1.282331e+08 -2.40839e-01 -778 1.294196e+08 -2.43092e-01 -779 1.306171e+08 -2.45351e-01 -780 1.318257e+08 -2.47615e-01 -781 1.330454e+08 -2.49885e-01 -782 1.342765e+08 -2.52160e-01 -783 1.355189e+08 -2.54439e-01 -784 1.367729e+08 -2.56723e-01 -785 1.380384e+08 -2.59010e-01 -786 1.393157e+08 -2.61301e-01 -787 1.406048e+08 -2.63596e-01 -788 1.419058e+08 -2.65893e-01 -789 1.432188e+08 -2.68193e-01 -790 1.445440e+08 -2.70496e-01 -791 1.458814e+08 -2.72800e-01 -792 1.472313e+08 -2.75106e-01 -793 1.485936e+08 -2.77414e-01 -794 1.499685e+08 -2.79722e-01 -795 1.513561e+08 -2.82031e-01 -796 1.527566e+08 -2.84340e-01 -797 1.541700e+08 -2.86649e-01 -798 1.555966e+08 -2.88958e-01 -799 1.570363e+08 -2.91265e-01 -800 1.584893e+08 -2.93572e-01 -801 1.599558e+08 -2.95878e-01 -802 1.614359e+08 -2.98181e-01 -803 1.629296e+08 -3.00482e-01 -804 1.644372e+08 -3.02781e-01 -805 1.659587e+08 -3.05078e-01 -806 1.674943e+08 -3.07370e-01 -807 1.690441e+08 -3.09660e-01 -808 1.706082e+08 -3.11946e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -809 1.721869e+08 -3.14227e-01 -810 1.737801e+08 -3.16505e-01 -811 1.753881e+08 -3.18777e-01 -812 1.770109e+08 -3.21045e-01 -813 1.786488e+08 -3.23307e-01 -814 1.803018e+08 -3.25563e-01 -815 1.819701e+08 -3.27814e-01 -816 1.836538e+08 -3.30059e-01 -817 1.853532e+08 -3.32297e-01 -818 1.870682e+08 -3.34528e-01 -819 1.887991e+08 -3.36753e-01 -820 1.905461e+08 -3.38971e-01 -821 1.923092e+08 -3.41181e-01 -822 1.940886e+08 -3.43384e-01 -823 1.958845e+08 -3.45579e-01 -824 1.976970e+08 -3.47767e-01 -825 1.995262e+08 -3.49946e-01 -826 2.013724e+08 -3.52118e-01 -827 2.032357e+08 -3.54282e-01 -828 2.051162e+08 -3.56437e-01 -829 2.070141e+08 -3.58584e-01 -830 2.089296e+08 -3.60723e-01 -831 2.108628e+08 -3.62853e-01 -832 2.128139e+08 -3.64975e-01 -833 2.147830e+08 -3.67089e-01 -834 2.167704e+08 -3.69194e-01 -835 2.187762e+08 -3.71292e-01 -836 2.208005e+08 -3.73381e-01 -837 2.228435e+08 -3.75462e-01 -838 2.249055e+08 -3.77536e-01 -839 2.269865e+08 -3.79601e-01 -840 2.290868e+08 -3.81659e-01 -841 2.312065e+08 -3.83710e-01 -842 2.333458e+08 -3.85753e-01 -843 2.355049e+08 -3.87789e-01 -844 2.376840e+08 -3.89819e-01 -845 2.398833e+08 -3.91841e-01 -846 2.421029e+08 -3.93857e-01 -847 2.443431e+08 -3.95867e-01 -848 2.466039e+08 -3.97870e-01 -849 2.488857e+08 -3.99868e-01 -850 2.511886e+08 -4.01860e-01 -851 2.535129e+08 -4.03846e-01 -852 2.558586e+08 -4.05827e-01 -853 2.582260e+08 -4.07802e-01 -854 2.606154e+08 -4.09772e-01 -855 2.630268e+08 -4.11738e-01 -856 2.654606e+08 -4.13698e-01 -857 2.679168e+08 -4.15653e-01 -858 2.703958e+08 -4.17604e-01 -859 2.728978e+08 -4.19549e-01 -860 2.754229e+08 -4.21490e-01 -861 2.779713e+08 -4.23426e-01 -862 2.805434e+08 -4.25357e-01 -863 2.831392e+08 -4.27283e-01 -864 2.857591e+08 -4.29204e-01 -865 2.884032e+08 -4.31119e-01 -866 2.910717e+08 -4.33029e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -867 2.937650e+08 -4.34934e-01 -868 2.964831e+08 -4.36833e-01 -869 2.992265e+08 -4.38727e-01 -870 3.019952e+08 -4.40615e-01 -871 3.047895e+08 -4.42497e-01 -872 3.076097e+08 -4.44373e-01 -873 3.104560e+08 -4.46243e-01 -874 3.133286e+08 -4.48107e-01 -875 3.162278e+08 -4.49965e-01 -876 3.191538e+08 -4.51818e-01 -877 3.221069e+08 -4.53665e-01 -878 3.250873e+08 -4.55507e-01 -879 3.280953e+08 -4.57344e-01 -880 3.311311e+08 -4.59177e-01 -881 3.341950e+08 -4.61005e-01 -882 3.372873e+08 -4.62830e-01 -883 3.404082e+08 -4.64653e-01 -884 3.435579e+08 -4.66473e-01 -885 3.467369e+08 -4.68291e-01 -886 3.499452e+08 -4.70110e-01 -887 3.531832e+08 -4.71928e-01 -888 3.564511e+08 -4.73748e-01 -889 3.597493e+08 -4.75570e-01 -890 3.630781e+08 -4.77395e-01 -891 3.664376e+08 -4.79224e-01 -892 3.698282e+08 -4.81058e-01 -893 3.732502e+08 -4.82898e-01 -894 3.767038e+08 -4.84745e-01 -895 3.801894e+08 -4.86598e-01 -896 3.837072e+08 -4.88460e-01 -897 3.872576e+08 -4.90330e-01 -898 3.908409e+08 -4.92209e-01 -899 3.944573e+08 -4.94097e-01 -900 3.981072e+08 -4.95994e-01 -901 4.017908e+08 -4.97900e-01 -902 4.055085e+08 -4.99815e-01 -903 4.092607e+08 -5.01738e-01 -904 4.130475e+08 -5.03670e-01 -905 4.168694e+08 -5.05610e-01 -906 4.207266e+08 -5.07557e-01 -907 4.246196e+08 -5.09511e-01 -908 4.285485e+08 -5.11471e-01 -909 4.325138e+08 -5.13437e-01 -910 4.365158e+08 -5.15409e-01 -911 4.405549e+08 -5.17386e-01 -912 4.446313e+08 -5.19368e-01 -913 4.487454e+08 -5.21356e-01 -914 4.528976e+08 -5.23349e-01 -915 4.570882e+08 -5.25349e-01 -916 4.613176e+08 -5.27356e-01 -917 4.655861e+08 -5.29372e-01 -918 4.698941e+08 -5.31397e-01 -919 4.742420e+08 -5.33433e-01 -920 4.786301e+08 -5.35483e-01 -921 4.830588e+08 -5.37547e-01 -922 4.875285e+08 -5.39629e-01 -923 4.920395e+08 -5.41729e-01 -924 4.965923e+08 -5.43849e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -925 5.011872e+08 -5.45992e-01 -926 5.058247e+08 -5.48159e-01 -927 5.105050e+08 -5.50351e-01 -928 5.152286e+08 -5.52568e-01 -929 5.199960e+08 -5.54812e-01 -930 5.248075e+08 -5.57082e-01 -931 5.296634e+08 -5.59378e-01 -932 5.345644e+08 -5.61699e-01 -933 5.395106e+08 -5.64044e-01 -934 5.445027e+08 -5.66412e-01 -935 5.495409e+08 -5.68800e-01 -936 5.546257e+08 -5.71209e-01 -937 5.597576e+08 -5.73636e-01 -938 5.649370e+08 -5.76080e-01 -939 5.701643e+08 -5.78541e-01 -940 5.754399e+08 -5.81017e-01 -941 5.807644e+08 -5.83510e-01 -942 5.861382e+08 -5.86020e-01 -943 5.915616e+08 -5.88548e-01 -944 5.970353e+08 -5.91098e-01 -945 6.025596e+08 -5.93671e-01 -946 6.081350e+08 -5.96270e-01 -947 6.137620e+08 -5.98900e-01 -948 6.194411e+08 -6.01563e-01 -949 6.251727e+08 -6.04263e-01 -950 6.309573e+08 -6.07002e-01 -951 6.367955e+08 -6.09784e-01 -952 6.426877e+08 -6.12608e-01 -953 6.486344e+08 -6.15476e-01 -954 6.546362e+08 -6.18387e-01 -955 6.606934e+08 -6.21339e-01 -956 6.668068e+08 -6.24332e-01 -957 6.729767e+08 -6.27361e-01 -958 6.792036e+08 -6.30423e-01 -959 6.854882e+08 -6.33516e-01 -960 6.918310e+08 -6.36636e-01 -961 6.982324e+08 -6.39782e-01 -962 7.046931e+08 -6.42953e-01 -963 7.112135e+08 -6.46148e-01 -964 7.177943e+08 -6.49370e-01 -965 7.244360e+08 -6.52622e-01 -966 7.311391e+08 -6.55908e-01 -967 7.379042e+08 -6.59233e-01 -968 7.447320e+08 -6.62603e-01 -969 7.516229e+08 -6.66023e-01 -970 7.585776e+08 -6.69497e-01 -971 7.655966e+08 -6.73029e-01 -972 7.726806e+08 -6.76622e-01 -973 7.798301e+08 -6.80274e-01 -974 7.870458e+08 -6.83983e-01 -975 7.943282e+08 -6.87746e-01 -976 8.016781e+08 -6.91559e-01 -977 8.090959e+08 -6.95414e-01 -978 8.165824e+08 -6.99307e-01 -979 8.241381e+08 -7.03233e-01 -980 8.317638e+08 -7.07190e-01 -981 8.394600e+08 -7.11177e-01 -982 8.472274e+08 -7.15197e-01 - -Index frequency db(v(44)-v(45)) --------------------------------------------------------------------------------- -983 8.550667e+08 -7.19255e-01 -984 8.629785e+08 -7.23358e-01 -985 8.709636e+08 -7.27514e-01 -986 8.790225e+08 -7.31731e-01 -987 8.871560e+08 -7.36017e-01 -988 8.953648e+08 -7.40375e-01 -989 9.036495e+08 -7.44808e-01 -990 9.120108e+08 -7.49314e-01 -991 9.204496e+08 -7.53887e-01 -992 9.289664e+08 -7.58520e-01 -993 9.375620e+08 -7.63204e-01 -994 9.462372e+08 -7.67931e-01 -995 9.549926e+08 -7.72693e-01 -996 9.638290e+08 -7.77487e-01 -997 9.727472e+08 -7.82316e-01 -998 9.817479e+08 -7.87184e-01 -999 9.908319e+08 -7.92102e-01 -1000 1.000000e+09 -7.97080e-01 - -CPU time since last call: 0.616 seconds. - -Total CPU time: 0.616 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4857.847656 MB. -Total ngspice program size = 7.541016 MB. -Resident set size = 1.246094 MB. -Shared ngspice pages = 533.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 801.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector.bundle_spec deleted file mode 100644 index 616d087..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows -SpaceWire_connector -0.0 0.0 0.0 -no_ground_plane -use_laplace -verbose - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector_crosstalk.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector_crosstalk.spice_model_spec deleted file mode 100644 index 3a9845b..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/SpaceWire_connector_crosstalk.spice_model_spec +++ /dev/null @@ -1,66 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -SpaceWire_connector -# cable bundle length (m) -0.02 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -0.0 End 1 voltage source list -0.0 -0.0 -0.0 -0.5 -0.0 -0.0 -0.0 --0.5 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -50.0 -50.0 -50.0 -50.0 -50.0 -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -50.0 -50.0 -50.0 -50.0 -50.0 -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e3 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -2 7 2 -dB # output type (lin or dB) - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/analytic_solution.dat_reference deleted file mode 100644 index 87f3c66..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 1000.0000000000000 -172.36568872396290 - 1013.9254075588153 -172.24556860384300 - 1028.0447320933097 -172.12544848372272 - 1042.3606739764011 -172.00532836360267 - 1056.8759711848040 -171.88520824348251 - 1071.5933998226712 -171.76508812336266 - 1086.5157746525383 -171.64496800324244 - 1101.6459496336570 -171.52484788312225 - 1116.9868184678226 -171.40472776300226 - 1132.5413151528114 -171.28460764288221 - 1148.3124145435111 -171.16448752276185 - 1164.3031329208768 -171.04436740264165 - 1180.5165285688056 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-78.672870750924616 - 49055837.063650452 -78.552775185778628 - 49738959.587900676 -78.432680309021862 - 50431594.871713586 -78.312586139945708 - 51133875.384143211 -78.192492698381443 - 51845935.438929133 -78.072400004717338 - 52567911.220184192 -77.952308079910708 - 53299940.808440931 -77.832216945506090 - 54042164.207059152 -77.712126623651940 - 54794723.369002812 -77.592037137116591 - 55557762.223988779 -77.471948509304895 - 56331426.706013516 -77.351860764278101 - 57115864.781264350 -77.231773926770501 - 57911226.476417586 -77.111688022208611 - 58717663.907332495 -76.991603076730570 - 59535331.308143698 -76.871519117206248 - 60364385.060758635 -76.751436171257737 - 61204983.724767029 -76.631354267280244 - 62057288.067765005 -76.511273434462908 - 62921461.096103378 -76.391193702812046 - 63797668.086062826 -76.271115103174040 - 64686076.615463205 -76.151037667257256 - 65586856.595714353 -76.030961427657743 - 66500180.304311186 -75.910886417883987 - 67426222.417783350 -75.790812672380738 - 68365160.045102388 -75.670740226556504 - 69317172.761554003 -75.550669116811292 - 70282442.643083528 -75.430599380560665 - 71261154.301117450 -75.310531056268971 - 72253494.917872071 -75.190464183475214 - 73259654.282152295 -75.070398802823277 - 74279824.825649112 -74.950334956094494 - 75314201.659743756 -74.830272686236739 - 76362982.612822413 -74.710212037400026 - 77426368.268112779 -74.590153054967502 - 78504562.002045095 -74.470095785590885 - 79597770.023149773 -74.350040277225460 - 80706201.411495075 -74.229986579166223 - 81830068.158673897 -74.109934742086409 - 82969585.208349153 -73.989884818074145 - 84124970.497361183 -73.869836860672677 - 85296444.997410163 -73.749790924920390 - 86484232.757317260 -73.629747067393708 - 87688560.945874259 -73.509705346248197 - 88909659.895291671 -73.389665821263577 - 90147763.145249173 -73.269628553888055 - 91403107.487562224 -73.149593607285524 - 92675933.011468828 -73.029561046382639 - 93966483.149546906 -72.909530937917935 - 95275004.724272996 -72.789503350492481 - 96601747.995226458 -72.669478354620537 - 97946966.706953853 -72.549456022784597 - 99310918.137498006 -72.429436429487254 - 100693863.14760250 -72.309419651310208 - 102096066.23060475 -72.189405766969855 - 103517795.56301762 -72.069394857376480 - 104959323.05582266 -71.949387005697204 - 106420924.40647268 -71.829382297415464 - 107902879.15161814 -71.709380820397158 - 109405470.72057435 -71.589382664956261 - 110928986.48952228 -71.469387923922596 - 112473717.83647507 -71.349396692710840 - 114039960.19700354 -71.229409069392574 - 115628013.12073730 -71.109425154769269 - 117238180.32865998 -70.989445052448886 - 118870769.77119033 -70.869468868921700 - 120526093.68708414 -70.749496713641250 - 122204468.66314912 -70.629528699105407 - 123906215.69479132 -70.509564940940052 - 125631660.24741215 -70.389605557987608 - 127381132.31864785 -70.269650672391435 - 129154966.50148827 -70.149700409691008 - 130953502.04826704 -70.029754898913382 - 132777082.93554263 -69.909814272669593 - 134626057.92989111 -69.789878667252822 - 136500780.65460137 -69.669948222740175 - 138401609.65731302 -69.550023083096860 - 140328908.47858760 -69.430103396282362 - 142283045.72143489 -69.310189314360258 - 144264395.12181589 -69.190280993611424 - 146273335.62011299 -69.070378594648759 - 148310251.43361029 -68.950482282536981 - 150375532.12997416 -68.830592226913566 - 152469572.70175698 -68.710708602114693 - 154592773.64194787 -68.590831587302503 - 156745541.02055949 -68.470961366599724 - 158928286.56229764 -68.351098129221995 - 161141427.72530231 -68.231242069618801 - 163385387.78098571 -68.111393387616403 - 165660595.89499152 -67.991552288563412 - 167967487.20926532 -67.871718983482637 - 170306502.92528427 -67.751893689223209 - 172678090.38843596 -67.632076628622173 - 175082703.17357197 -67.512268030665354 - 177520801.17176360 -67.392468130654038 - 179992850.67824766 -67.272677170377975 - 182499324.48161504 -67.152895398291093 - 185040701.95423058 -67.033123069690120 - 187617469.14391157 -66.913360446902772 - 190230118.86689457 -66.793607799475026 - 192879150.80207777 -66.673865404369494 - 195565071.58659470 -66.554133546163058 - 198288394.91270754 -66.434412517252753 - 201049641.62604928 -66.314702618068694 - 203849339.82524642 -66.195004157287542 - 206688024.96290821 -66.075317452055558 - 209566239.94804308 -65.955642828217506 - 212484535.24988872 -65.835980620548810 - 215443469.00318778 -65.716331172994444 - 218443607.11494285 -65.596694838916989 - 221485523.37263593 -65.477071981346981 - 224569799.55397716 -65.357462973242122 - 227697025.53816846 -65.237868197751510 - 230867799.41871625 -65.118288048489902 - 234082727.61782944 -64.998722929813965 - 237342425.00238663 -64.879173257110082 - 240647515.00154218 -64.759639457086806 - 243998629.72595552 -64.640121968076045 - 247396410.08868065 -64.520621240341853 - 250841505.92775410 -64.401137736395668 - 254334576.13046482 -64.281671931321029 - 257876288.75937983 -64.162224313105966 - 261467321.18010974 -64.042795382984323 - 265108360.19085309 -63.923385655783832 - 268800102.15376073 -63.803995660285338 - 272543253.12810278 -63.684625939589154 - 276338529.00531667 -63.565277051492018 - 280186655.64592010 -63.445949568872173 - 284088369.01832956 -63.326644080084520 - 288044415.33962977 -63.207361189366338 - 292055551.21827453 -63.088101517252007 - 296122543.79880315 -62.968865700998848 - 300246170.90855557 -62.849654395022121 - 304427221.20642936 -62.730468271344066 - 308666494.33372742 -62.611308020049059 - 312964801.06707507 -62.492174349754563 - 317322963.47349733 -62.373067988091471 - 321741815.06763780 -62.253989682197158 - 326222200.97116601 -62.134940199218356 - 330764978.07442427 -62.015920326831036 - 335371015.20029289 -61.896930873768014 - 340041193.27037024 -61.777972670363674 - 344776405.47344714 -61.659046569108099 - 349577557.43632644 -61.540153445218841 - 354445567.39704359 -61.421294197223546 - 359381366.38046259 -61.302469747559115 - 364385898.37635404 -61.183681043183654 - 369460120.51993102 -61.064929056204633 - 374605003.27489817 -60.946214784523427 - 379821530.61907363 -60.827539252492471 - 385110700.23255688 -60.708903511591942 - 390473523.68855560 -60.590308641121986 - 395911026.64684665 -60.471755748910432 - 401424249.04993099 -60.353245972041265 - 407014245.32194388 -60.234780477597482 - 412682084.57029516 -60.116360463425906 - 418428850.79015762 -59.997987158916587 - 424255643.07177860 -59.879661825806103 - 430163575.81067818 -59.761385758999893 - 436153778.92080057 -59.643160287411241 - 442227398.05058968 -59.524986774826729 - 448385594.80211818 -59.406866620790169 - 454629546.95324087 -59.288801261510002 - 460960448.68284196 -59.170792170787891 - 467379510.79924637 -59.052840860976048 - 473887960.97176510 -58.934948883950106 - 480487043.96551239 -58.817117832117980 - 487178021.87946409 -58.699349339443003 - 493962174.38783056 -58.581645082504430 - 500840798.98482126 -58.464006781577638 - 507815211.23276705 -58.346436201744936 - 514886745.01374871 -58.228935154038496 - 522056752.78469861 -58.111505496607059 - 529326605.83605450 -57.994149135920978 - 536697694.55404758 -57.876868028002093 - 544171428.68658876 -57.759664179692209 - 551749237.61291170 -57.642539649952980 - 559432570.61693895 -57.525496551199353 - 567222897.16445255 -57.408537050674376 - 575121707.18416142 -57.291663371855407 - 583130511.35262191 -57.174877795904123 - 591250841.38318694 -57.058182663151136 - 599484250.31894207 -56.941580374627819 - 607832312.82972109 -56.825073393636274 - 616296625.51329422 -56.708664247363785 - 624878807.20068884 -56.592355528544083 - 633580499.26582408 -56.476149897164973 - 642403365.93942034 -56.360050082222372 - 651349094.62727833 -56.244058883527018 - 660419396.23303056 -56.128179173560028 - 669616005.48532152 -56.012413899383127 - 678940681.26960981 -55.896766084602447 - 688395206.96455097 -55.781238831388777 - 697981390.78306389 -55.665835322556710 - 707701066.11818898 -55.550558823701550 - 717556091.89369214 -55.435412685399406 - 727548352.91962183 -55.320400345469672 - 737679760.25277460 -55.205525331302880 - 747952251.56217980 -55.090791262255095 - 758367791.49971902 -54.976201852110421 - 768928372.07583058 -54.861760911614887 - 779636013.04052210 -54.747472351081996 - 790492762.26964366 -54.633340183073074 - 801500696.15654135 -54.519368525150860 - 812661920.00919449 -54.405561602714926 - 823978568.45285118 -54.291923751912954 - 835452805.83828545 -54.178459422635051 - 847086826.65574193 -54.065173181589941 - 858882855.95462584 -53.952069715466777 - 870843149.76907241 -53.839153834182468 - 882969995.54940832 -53.726430474216684 - 895265712.59963822 -53.613904702037317 - 907732652.52102423 -53.501581717616986 - 920373199.66182303 -53.389466858039505 - 933189771.57332385 -53.277565601204309 - 946184819.47219920 -53.165883569622629 - 959360828.70931268 -53.054426534312356 - 972720319.24505568 -52.943200418790596 - 986265846.13128304 -52.832211303164684 - 1000000000.0000000 -52.721465428323384 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/result_comparison.dat_reference deleted file mode 100644 index e2c06e2..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00007188 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/spice_solution.dat_reference deleted file mode 100644 index abcc039..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_SPACEWIRE_CONNECTOR/spice_solution.dat_reference +++ /dev/null @@ -1,1137 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c9_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c8_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c7_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c6_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c5_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c4_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_10: has no value, DC 0 assumed -Warning: vl_9: has no value, DC 0 assumed -Warning: vl_8: has no value, DC 0 assumed -Warning: vl_7: has no value, DC 0 assumed -Warning: vl_6: has no value, DC 0 assumed -Warning: vl_5: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_10: has no value, DC 0 assumed -Warning: vs_9: has no value, DC 0 assumed -Warning: vs_8: has no value, DC 0 assumed -Warning: vs_7: has no value, DC 0 assumed -Warning: vs_6: has no value, DC 0 assumed -Warning: vs_5: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1003 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:12:42 2018 --------------------------------------------------------------------------------- -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -0 1.000000e+03 -1.72366e+02 -1 1.013883e+03 -1.72246e+02 -2 1.027960e+03 -1.72126e+02 -3 1.042231e+03 -1.72006e+02 -4 1.056701e+03 -1.71887e+02 -5 1.071372e+03 -1.71767e+02 -6 1.086246e+03 -1.71647e+02 -7 1.101327e+03 -1.71527e+02 -8 1.116617e+03 -1.71408e+02 -9 1.132119e+03 -1.71288e+02 -10 1.147837e+03 -1.71168e+02 -11 1.163773e+03 -1.71048e+02 -12 1.179930e+03 -1.70929e+02 -13 1.196312e+03 -1.70809e+02 -14 1.212920e+03 -1.70689e+02 -15 1.229760e+03 -1.70569e+02 -16 1.246833e+03 -1.70449e+02 -17 1.264144e+03 -1.70330e+02 -18 1.281694e+03 -1.70210e+02 -19 1.299489e+03 -1.70090e+02 -20 1.317530e+03 -1.69970e+02 -21 1.335822e+03 -1.69851e+02 -22 1.354368e+03 -1.69731e+02 -23 1.373171e+03 -1.69611e+02 -24 1.392235e+03 -1.69491e+02 -25 1.411564e+03 -1.69372e+02 -26 1.431161e+03 -1.69252e+02 -27 1.451031e+03 -1.69132e+02 -28 1.471176e+03 -1.69012e+02 -29 1.491601e+03 -1.68893e+02 -30 1.512310e+03 -1.68773e+02 -31 1.533306e+03 -1.68653e+02 -32 1.554593e+03 -1.68533e+02 -33 1.576176e+03 -1.68414e+02 -34 1.598059e+03 -1.68294e+02 -35 1.620246e+03 -1.68174e+02 -36 1.642740e+03 -1.68054e+02 -37 1.665547e+03 -1.67935e+02 -38 1.688670e+03 -1.67815e+02 -39 1.712115e+03 -1.67695e+02 -40 1.735885e+03 -1.67575e+02 -41 1.759985e+03 -1.67455e+02 -42 1.784420e+03 -1.67336e+02 -43 1.809194e+03 -1.67216e+02 -44 1.834311e+03 -1.67096e+02 -45 1.859778e+03 -1.66976e+02 -46 1.885598e+03 -1.66857e+02 -47 1.911777e+03 -1.66737e+02 -48 1.938319e+03 -1.66617e+02 -49 1.965229e+03 -1.66497e+02 -50 1.992513e+03 -1.66378e+02 -51 2.020176e+03 -1.66258e+02 -52 2.048223e+03 -1.66138e+02 -53 2.076659e+03 -1.66018e+02 -54 2.105491e+03 -1.65899e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -55 2.134722e+03 -1.65779e+02 -56 2.164359e+03 -1.65659e+02 -57 2.194408e+03 -1.65539e+02 -58 2.224874e+03 -1.65420e+02 -59 2.255763e+03 -1.65300e+02 -60 2.287080e+03 -1.65180e+02 -61 2.318833e+03 -1.65060e+02 -62 2.351026e+03 -1.64940e+02 -63 2.383667e+03 -1.64821e+02 -64 2.416760e+03 -1.64701e+02 -65 2.450313e+03 -1.64581e+02 -66 2.484332e+03 -1.64461e+02 -67 2.518823e+03 -1.64342e+02 -68 2.553793e+03 -1.64222e+02 -69 2.589248e+03 -1.64102e+02 -70 2.625196e+03 -1.63982e+02 -71 2.661642e+03 -1.63863e+02 -72 2.698595e+03 -1.63743e+02 -73 2.736061e+03 -1.63623e+02 -74 2.774047e+03 -1.63503e+02 -75 2.812560e+03 -1.63384e+02 -76 2.851608e+03 -1.63264e+02 -77 2.891198e+03 -1.63144e+02 -78 2.931338e+03 -1.63024e+02 -79 2.972035e+03 -1.62905e+02 -80 3.013297e+03 -1.62785e+02 -81 3.055132e+03 -1.62665e+02 -82 3.097547e+03 -1.62545e+02 -83 3.140552e+03 -1.62426e+02 -84 3.184154e+03 -1.62306e+02 -85 3.228361e+03 -1.62186e+02 -86 3.273181e+03 -1.62066e+02 -87 3.318624e+03 -1.61946e+02 -88 3.364698e+03 -1.61827e+02 -89 3.411412e+03 -1.61707e+02 -90 3.458774e+03 -1.61587e+02 -91 3.506793e+03 -1.61467e+02 -92 3.555480e+03 -1.61348e+02 -93 3.604842e+03 -1.61228e+02 -94 3.654890e+03 -1.61108e+02 -95 3.705632e+03 -1.60988e+02 -96 3.757079e+03 -1.60869e+02 -97 3.809240e+03 -1.60749e+02 -98 3.862125e+03 -1.60629e+02 -99 3.915745e+03 -1.60509e+02 -100 3.970109e+03 -1.60390e+02 -101 4.025227e+03 -1.60270e+02 -102 4.081111e+03 -1.60150e+02 -103 4.137771e+03 -1.60030e+02 -104 4.195218e+03 -1.59911e+02 -105 4.253462e+03 -1.59791e+02 -106 4.312514e+03 -1.59671e+02 -107 4.372387e+03 -1.59551e+02 -108 4.433090e+03 -1.59432e+02 -109 4.494637e+03 -1.59312e+02 -110 4.557038e+03 -1.59192e+02 -111 4.620305e+03 -1.59072e+02 -112 4.684451e+03 -1.58952e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -113 4.749487e+03 -1.58833e+02 -114 4.815426e+03 -1.58713e+02 -115 4.882281e+03 -1.58593e+02 -116 4.950064e+03 -1.58473e+02 -117 5.018787e+03 -1.58354e+02 -118 5.088465e+03 -1.58234e+02 -119 5.159111e+03 -1.58114e+02 -120 5.230737e+03 -1.57994e+02 -121 5.303357e+03 -1.57875e+02 -122 5.376986e+03 -1.57755e+02 -123 5.451637e+03 -1.57635e+02 -124 5.527325e+03 -1.57515e+02 -125 5.604063e+03 -1.57396e+02 -126 5.681866e+03 -1.57276e+02 -127 5.760750e+03 -1.57156e+02 -128 5.840729e+03 -1.57036e+02 -129 5.921818e+03 -1.56917e+02 -130 6.004034e+03 -1.56797e+02 -131 6.087390e+03 -1.56677e+02 -132 6.171904e+03 -1.56557e+02 -133 6.257591e+03 -1.56437e+02 -134 6.344468e+03 -1.56318e+02 -135 6.432551e+03 -1.56198e+02 -136 6.521857e+03 -1.56078e+02 -137 6.612403e+03 -1.55958e+02 -138 6.704205e+03 -1.55839e+02 -139 6.797283e+03 -1.55719e+02 -140 6.891652e+03 -1.55599e+02 -141 6.987332e+03 -1.55479e+02 -142 7.084340e+03 -1.55360e+02 -143 7.182695e+03 -1.55240e+02 -144 7.282415e+03 -1.55120e+02 -145 7.383520e+03 -1.55000e+02 -146 7.486029e+03 -1.54881e+02 -147 7.589961e+03 -1.54761e+02 -148 7.695335e+03 -1.54641e+02 -149 7.802173e+03 -1.54521e+02 -150 7.910494e+03 -1.54402e+02 -151 8.020319e+03 -1.54282e+02 -152 8.131668e+03 -1.54162e+02 -153 8.244563e+03 -1.54042e+02 -154 8.359026e+03 -1.53923e+02 -155 8.475078e+03 -1.53803e+02 -156 8.592741e+03 -1.53683e+02 -157 8.712038e+03 -1.53563e+02 -158 8.832991e+03 -1.53443e+02 -159 8.955623e+03 -1.53324e+02 -160 9.079958e+03 -1.53204e+02 -161 9.206019e+03 -1.53084e+02 -162 9.333830e+03 -1.52964e+02 -163 9.463415e+03 -1.52845e+02 -164 9.594800e+03 -1.52725e+02 -165 9.728009e+03 -1.52605e+02 -166 9.863067e+03 -1.52485e+02 -167 1.000000e+04 -1.52366e+02 -168 1.013883e+04 -1.52246e+02 -169 1.027960e+04 -1.52126e+02 -170 1.042231e+04 -1.52006e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -171 1.056701e+04 -1.51887e+02 -172 1.071372e+04 -1.51767e+02 -173 1.086246e+04 -1.51647e+02 -174 1.101327e+04 -1.51527e+02 -175 1.116617e+04 -1.51408e+02 -176 1.132119e+04 -1.51288e+02 -177 1.147837e+04 -1.51168e+02 -178 1.163773e+04 -1.51048e+02 -179 1.179930e+04 -1.50929e+02 -180 1.196312e+04 -1.50809e+02 -181 1.212920e+04 -1.50689e+02 -182 1.229760e+04 -1.50569e+02 -183 1.246833e+04 -1.50449e+02 -184 1.264144e+04 -1.50330e+02 -185 1.281694e+04 -1.50210e+02 -186 1.299489e+04 -1.50090e+02 -187 1.317530e+04 -1.49970e+02 -188 1.335822e+04 -1.49851e+02 -189 1.354368e+04 -1.49731e+02 -190 1.373171e+04 -1.49611e+02 -191 1.392235e+04 -1.49491e+02 -192 1.411564e+04 -1.49372e+02 -193 1.431161e+04 -1.49252e+02 -194 1.451031e+04 -1.49132e+02 -195 1.471176e+04 -1.49012e+02 -196 1.491601e+04 -1.48893e+02 -197 1.512310e+04 -1.48773e+02 -198 1.533306e+04 -1.48653e+02 -199 1.554593e+04 -1.48533e+02 -200 1.576176e+04 -1.48414e+02 -201 1.598059e+04 -1.48294e+02 -202 1.620246e+04 -1.48174e+02 -203 1.642740e+04 -1.48054e+02 -204 1.665547e+04 -1.47935e+02 -205 1.688670e+04 -1.47815e+02 -206 1.712115e+04 -1.47695e+02 -207 1.735885e+04 -1.47575e+02 -208 1.759985e+04 -1.47455e+02 -209 1.784420e+04 -1.47336e+02 -210 1.809194e+04 -1.47216e+02 -211 1.834311e+04 -1.47096e+02 -212 1.859778e+04 -1.46976e+02 -213 1.885598e+04 -1.46857e+02 -214 1.911777e+04 -1.46737e+02 -215 1.938319e+04 -1.46617e+02 -216 1.965229e+04 -1.46497e+02 -217 1.992513e+04 -1.46378e+02 -218 2.020176e+04 -1.46258e+02 -219 2.048223e+04 -1.46138e+02 -220 2.076659e+04 -1.46018e+02 -221 2.105491e+04 -1.45899e+02 -222 2.134722e+04 -1.45779e+02 -223 2.164359e+04 -1.45659e+02 -224 2.194408e+04 -1.45539e+02 -225 2.224874e+04 -1.45420e+02 -226 2.255763e+04 -1.45300e+02 -227 2.287080e+04 -1.45180e+02 -228 2.318833e+04 -1.45060e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -229 2.351026e+04 -1.44940e+02 -230 2.383667e+04 -1.44821e+02 -231 2.416760e+04 -1.44701e+02 -232 2.450313e+04 -1.44581e+02 -233 2.484332e+04 -1.44461e+02 -234 2.518823e+04 -1.44342e+02 -235 2.553793e+04 -1.44222e+02 -236 2.589248e+04 -1.44102e+02 -237 2.625196e+04 -1.43982e+02 -238 2.661642e+04 -1.43863e+02 -239 2.698595e+04 -1.43743e+02 -240 2.736061e+04 -1.43623e+02 -241 2.774047e+04 -1.43503e+02 -242 2.812560e+04 -1.43384e+02 -243 2.851608e+04 -1.43264e+02 -244 2.891198e+04 -1.43144e+02 -245 2.931338e+04 -1.43024e+02 -246 2.972035e+04 -1.42905e+02 -247 3.013297e+04 -1.42785e+02 -248 3.055132e+04 -1.42665e+02 -249 3.097547e+04 -1.42545e+02 -250 3.140552e+04 -1.42426e+02 -251 3.184154e+04 -1.42306e+02 -252 3.228361e+04 -1.42186e+02 -253 3.273181e+04 -1.42066e+02 -254 3.318624e+04 -1.41946e+02 -255 3.364698e+04 -1.41827e+02 -256 3.411412e+04 -1.41707e+02 -257 3.458774e+04 -1.41587e+02 -258 3.506793e+04 -1.41467e+02 -259 3.555480e+04 -1.41348e+02 -260 3.604842e+04 -1.41228e+02 -261 3.654890e+04 -1.41108e+02 -262 3.705632e+04 -1.40988e+02 -263 3.757079e+04 -1.40869e+02 -264 3.809240e+04 -1.40749e+02 -265 3.862125e+04 -1.40629e+02 -266 3.915745e+04 -1.40509e+02 -267 3.970109e+04 -1.40390e+02 -268 4.025227e+04 -1.40270e+02 -269 4.081111e+04 -1.40150e+02 -270 4.137771e+04 -1.40030e+02 -271 4.195218e+04 -1.39911e+02 -272 4.253462e+04 -1.39791e+02 -273 4.312514e+04 -1.39671e+02 -274 4.372387e+04 -1.39551e+02 -275 4.433090e+04 -1.39432e+02 -276 4.494637e+04 -1.39312e+02 -277 4.557038e+04 -1.39192e+02 -278 4.620305e+04 -1.39072e+02 -279 4.684451e+04 -1.38952e+02 -280 4.749487e+04 -1.38833e+02 -281 4.815426e+04 -1.38713e+02 -282 4.882281e+04 -1.38593e+02 -283 4.950064e+04 -1.38473e+02 -284 5.018787e+04 -1.38354e+02 -285 5.088465e+04 -1.38234e+02 -286 5.159111e+04 -1.38114e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -287 5.230737e+04 -1.37994e+02 -288 5.303357e+04 -1.37875e+02 -289 5.376986e+04 -1.37755e+02 -290 5.451637e+04 -1.37635e+02 -291 5.527325e+04 -1.37515e+02 -292 5.604063e+04 -1.37396e+02 -293 5.681866e+04 -1.37276e+02 -294 5.760750e+04 -1.37156e+02 -295 5.840729e+04 -1.37036e+02 -296 5.921818e+04 -1.36917e+02 -297 6.004034e+04 -1.36797e+02 -298 6.087390e+04 -1.36677e+02 -299 6.171904e+04 -1.36557e+02 -300 6.257591e+04 -1.36437e+02 -301 6.344468e+04 -1.36318e+02 -302 6.432551e+04 -1.36198e+02 -303 6.521857e+04 -1.36078e+02 -304 6.612403e+04 -1.35958e+02 -305 6.704205e+04 -1.35839e+02 -306 6.797283e+04 -1.35719e+02 -307 6.891652e+04 -1.35599e+02 -308 6.987332e+04 -1.35479e+02 -309 7.084340e+04 -1.35360e+02 -310 7.182695e+04 -1.35240e+02 -311 7.282415e+04 -1.35120e+02 -312 7.383520e+04 -1.35000e+02 -313 7.486029e+04 -1.34881e+02 -314 7.589961e+04 -1.34761e+02 -315 7.695335e+04 -1.34641e+02 -316 7.802173e+04 -1.34521e+02 -317 7.910494e+04 -1.34402e+02 -318 8.020319e+04 -1.34282e+02 -319 8.131668e+04 -1.34162e+02 -320 8.244563e+04 -1.34042e+02 -321 8.359026e+04 -1.33923e+02 -322 8.475078e+04 -1.33803e+02 -323 8.592741e+04 -1.33683e+02 -324 8.712038e+04 -1.33563e+02 -325 8.832991e+04 -1.33443e+02 -326 8.955623e+04 -1.33324e+02 -327 9.079958e+04 -1.33204e+02 -328 9.206019e+04 -1.33084e+02 -329 9.333830e+04 -1.32964e+02 -330 9.463415e+04 -1.32845e+02 -331 9.594800e+04 -1.32725e+02 -332 9.728009e+04 -1.32605e+02 -333 9.863067e+04 -1.32485e+02 -334 1.000000e+05 -1.32366e+02 -335 1.013883e+05 -1.32246e+02 -336 1.027960e+05 -1.32126e+02 -337 1.042231e+05 -1.32006e+02 -338 1.056701e+05 -1.31887e+02 -339 1.071372e+05 -1.31767e+02 -340 1.086246e+05 -1.31647e+02 -341 1.101327e+05 -1.31527e+02 -342 1.116617e+05 -1.31408e+02 -343 1.132119e+05 -1.31288e+02 -344 1.147837e+05 -1.31168e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -345 1.163773e+05 -1.31048e+02 -346 1.179930e+05 -1.30929e+02 -347 1.196312e+05 -1.30809e+02 -348 1.212920e+05 -1.30689e+02 -349 1.229760e+05 -1.30569e+02 -350 1.246833e+05 -1.30449e+02 -351 1.264144e+05 -1.30330e+02 -352 1.281694e+05 -1.30210e+02 -353 1.299489e+05 -1.30090e+02 -354 1.317530e+05 -1.29970e+02 -355 1.335822e+05 -1.29851e+02 -356 1.354368e+05 -1.29731e+02 -357 1.373171e+05 -1.29611e+02 -358 1.392235e+05 -1.29491e+02 -359 1.411564e+05 -1.29372e+02 -360 1.431161e+05 -1.29252e+02 -361 1.451031e+05 -1.29132e+02 -362 1.471176e+05 -1.29012e+02 -363 1.491601e+05 -1.28893e+02 -364 1.512310e+05 -1.28773e+02 -365 1.533306e+05 -1.28653e+02 -366 1.554593e+05 -1.28533e+02 -367 1.576176e+05 -1.28414e+02 -368 1.598059e+05 -1.28294e+02 -369 1.620246e+05 -1.28174e+02 -370 1.642740e+05 -1.28054e+02 -371 1.665547e+05 -1.27935e+02 -372 1.688670e+05 -1.27815e+02 -373 1.712115e+05 -1.27695e+02 -374 1.735885e+05 -1.27575e+02 -375 1.759985e+05 -1.27455e+02 -376 1.784420e+05 -1.27336e+02 -377 1.809194e+05 -1.27216e+02 -378 1.834311e+05 -1.27096e+02 -379 1.859778e+05 -1.26976e+02 -380 1.885598e+05 -1.26857e+02 -381 1.911777e+05 -1.26737e+02 -382 1.938319e+05 -1.26617e+02 -383 1.965229e+05 -1.26497e+02 -384 1.992513e+05 -1.26378e+02 -385 2.020176e+05 -1.26258e+02 -386 2.048223e+05 -1.26138e+02 -387 2.076659e+05 -1.26018e+02 -388 2.105491e+05 -1.25899e+02 -389 2.134722e+05 -1.25779e+02 -390 2.164359e+05 -1.25659e+02 -391 2.194408e+05 -1.25539e+02 -392 2.224874e+05 -1.25420e+02 -393 2.255763e+05 -1.25300e+02 -394 2.287080e+05 -1.25180e+02 -395 2.318833e+05 -1.25060e+02 -396 2.351026e+05 -1.24940e+02 -397 2.383667e+05 -1.24821e+02 -398 2.416760e+05 -1.24701e+02 -399 2.450313e+05 -1.24581e+02 -400 2.484332e+05 -1.24461e+02 -401 2.518823e+05 -1.24342e+02 -402 2.553793e+05 -1.24222e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -403 2.589248e+05 -1.24102e+02 -404 2.625196e+05 -1.23982e+02 -405 2.661642e+05 -1.23863e+02 -406 2.698595e+05 -1.23743e+02 -407 2.736061e+05 -1.23623e+02 -408 2.774047e+05 -1.23503e+02 -409 2.812560e+05 -1.23384e+02 -410 2.851608e+05 -1.23264e+02 -411 2.891198e+05 -1.23144e+02 -412 2.931338e+05 -1.23024e+02 -413 2.972035e+05 -1.22905e+02 -414 3.013297e+05 -1.22785e+02 -415 3.055132e+05 -1.22665e+02 -416 3.097547e+05 -1.22545e+02 -417 3.140552e+05 -1.22426e+02 -418 3.184154e+05 -1.22306e+02 -419 3.228361e+05 -1.22186e+02 -420 3.273181e+05 -1.22066e+02 -421 3.318624e+05 -1.21946e+02 -422 3.364698e+05 -1.21827e+02 -423 3.411412e+05 -1.21707e+02 -424 3.458774e+05 -1.21587e+02 -425 3.506793e+05 -1.21467e+02 -426 3.555480e+05 -1.21348e+02 -427 3.604842e+05 -1.21228e+02 -428 3.654890e+05 -1.21108e+02 -429 3.705632e+05 -1.20988e+02 -430 3.757079e+05 -1.20869e+02 -431 3.809240e+05 -1.20749e+02 -432 3.862125e+05 -1.20629e+02 -433 3.915745e+05 -1.20509e+02 -434 3.970109e+05 -1.20390e+02 -435 4.025227e+05 -1.20270e+02 -436 4.081111e+05 -1.20150e+02 -437 4.137771e+05 -1.20030e+02 -438 4.195218e+05 -1.19911e+02 -439 4.253462e+05 -1.19791e+02 -440 4.312514e+05 -1.19671e+02 -441 4.372387e+05 -1.19551e+02 -442 4.433090e+05 -1.19432e+02 -443 4.494637e+05 -1.19312e+02 -444 4.557038e+05 -1.19192e+02 -445 4.620305e+05 -1.19072e+02 -446 4.684451e+05 -1.18952e+02 -447 4.749487e+05 -1.18833e+02 -448 4.815426e+05 -1.18713e+02 -449 4.882281e+05 -1.18593e+02 -450 4.950064e+05 -1.18473e+02 -451 5.018787e+05 -1.18354e+02 -452 5.088465e+05 -1.18234e+02 -453 5.159111e+05 -1.18114e+02 -454 5.230737e+05 -1.17994e+02 -455 5.303357e+05 -1.17875e+02 -456 5.376986e+05 -1.17755e+02 -457 5.451637e+05 -1.17635e+02 -458 5.527325e+05 -1.17515e+02 -459 5.604063e+05 -1.17396e+02 -460 5.681866e+05 -1.17276e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -461 5.760750e+05 -1.17156e+02 -462 5.840729e+05 -1.17036e+02 -463 5.921818e+05 -1.16917e+02 -464 6.004034e+05 -1.16797e+02 -465 6.087390e+05 -1.16677e+02 -466 6.171904e+05 -1.16557e+02 -467 6.257591e+05 -1.16438e+02 -468 6.344468e+05 -1.16318e+02 -469 6.432551e+05 -1.16198e+02 -470 6.521857e+05 -1.16078e+02 -471 6.612403e+05 -1.15958e+02 -472 6.704205e+05 -1.15839e+02 -473 6.797283e+05 -1.15719e+02 -474 6.891652e+05 -1.15599e+02 -475 6.987332e+05 -1.15479e+02 -476 7.084340e+05 -1.15360e+02 -477 7.182695e+05 -1.15240e+02 -478 7.282415e+05 -1.15120e+02 -479 7.383520e+05 -1.15000e+02 -480 7.486029e+05 -1.14881e+02 -481 7.589961e+05 -1.14761e+02 -482 7.695335e+05 -1.14641e+02 -483 7.802173e+05 -1.14521e+02 -484 7.910494e+05 -1.14402e+02 -485 8.020319e+05 -1.14282e+02 -486 8.131668e+05 -1.14162e+02 -487 8.244563e+05 -1.14042e+02 -488 8.359026e+05 -1.13923e+02 -489 8.475078e+05 -1.13803e+02 -490 8.592741e+05 -1.13683e+02 -491 8.712038e+05 -1.13563e+02 -492 8.832991e+05 -1.13443e+02 -493 8.955623e+05 -1.13324e+02 -494 9.079958e+05 -1.13204e+02 -495 9.206019e+05 -1.13084e+02 -496 9.333830e+05 -1.12964e+02 -497 9.463415e+05 -1.12845e+02 -498 9.594800e+05 -1.12725e+02 -499 9.728009e+05 -1.12605e+02 -500 9.863067e+05 -1.12485e+02 -501 1.000000e+06 -1.12366e+02 -502 1.013883e+06 -1.12246e+02 -503 1.027960e+06 -1.12126e+02 -504 1.042231e+06 -1.12006e+02 -505 1.056701e+06 -1.11887e+02 -506 1.071372e+06 -1.11767e+02 -507 1.086246e+06 -1.11647e+02 -508 1.101327e+06 -1.11527e+02 -509 1.116617e+06 -1.11408e+02 -510 1.132119e+06 -1.11288e+02 -511 1.147837e+06 -1.11168e+02 -512 1.163773e+06 -1.11048e+02 -513 1.179930e+06 -1.10929e+02 -514 1.196312e+06 -1.10809e+02 -515 1.212920e+06 -1.10689e+02 -516 1.229760e+06 -1.10569e+02 -517 1.246833e+06 -1.10449e+02 -518 1.264144e+06 -1.10330e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -519 1.281694e+06 -1.10210e+02 -520 1.299489e+06 -1.10090e+02 -521 1.317530e+06 -1.09970e+02 -522 1.335822e+06 -1.09851e+02 -523 1.354368e+06 -1.09731e+02 -524 1.373171e+06 -1.09611e+02 -525 1.392235e+06 -1.09491e+02 -526 1.411564e+06 -1.09372e+02 -527 1.431161e+06 -1.09252e+02 -528 1.451031e+06 -1.09132e+02 -529 1.471176e+06 -1.09012e+02 -530 1.491601e+06 -1.08893e+02 -531 1.512310e+06 -1.08773e+02 -532 1.533306e+06 -1.08653e+02 -533 1.554593e+06 -1.08533e+02 -534 1.576176e+06 -1.08414e+02 -535 1.598059e+06 -1.08294e+02 -536 1.620246e+06 -1.08174e+02 -537 1.642740e+06 -1.08054e+02 -538 1.665547e+06 -1.07935e+02 -539 1.688670e+06 -1.07815e+02 -540 1.712115e+06 -1.07695e+02 -541 1.735885e+06 -1.07575e+02 -542 1.759985e+06 -1.07455e+02 -543 1.784420e+06 -1.07336e+02 -544 1.809194e+06 -1.07216e+02 -545 1.834311e+06 -1.07096e+02 -546 1.859778e+06 -1.06976e+02 -547 1.885598e+06 -1.06857e+02 -548 1.911777e+06 -1.06737e+02 -549 1.938319e+06 -1.06617e+02 -550 1.965229e+06 -1.06497e+02 -551 1.992513e+06 -1.06378e+02 -552 2.020176e+06 -1.06258e+02 -553 2.048223e+06 -1.06138e+02 -554 2.076659e+06 -1.06018e+02 -555 2.105491e+06 -1.05899e+02 -556 2.134722e+06 -1.05779e+02 -557 2.164359e+06 -1.05659e+02 -558 2.194408e+06 -1.05539e+02 -559 2.224874e+06 -1.05420e+02 -560 2.255763e+06 -1.05300e+02 -561 2.287080e+06 -1.05180e+02 -562 2.318833e+06 -1.05060e+02 -563 2.351026e+06 -1.04940e+02 -564 2.383667e+06 -1.04821e+02 -565 2.416760e+06 -1.04701e+02 -566 2.450313e+06 -1.04581e+02 -567 2.484332e+06 -1.04461e+02 -568 2.518823e+06 -1.04342e+02 -569 2.553793e+06 -1.04222e+02 -570 2.589248e+06 -1.04102e+02 -571 2.625196e+06 -1.03982e+02 -572 2.661642e+06 -1.03863e+02 -573 2.698595e+06 -1.03743e+02 -574 2.736061e+06 -1.03623e+02 -575 2.774047e+06 -1.03503e+02 -576 2.812560e+06 -1.03384e+02 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -577 2.851608e+06 -1.03264e+02 -578 2.891198e+06 -1.03144e+02 -579 2.931338e+06 -1.03024e+02 -580 2.972035e+06 -1.02905e+02 -581 3.013297e+06 -1.02785e+02 -582 3.055132e+06 -1.02665e+02 -583 3.097547e+06 -1.02545e+02 -584 3.140552e+06 -1.02426e+02 -585 3.184154e+06 -1.02306e+02 -586 3.228361e+06 -1.02186e+02 -587 3.273181e+06 -1.02066e+02 -588 3.318624e+06 -1.01946e+02 -589 3.364698e+06 -1.01827e+02 -590 3.411412e+06 -1.01707e+02 -591 3.458774e+06 -1.01587e+02 -592 3.506793e+06 -1.01467e+02 -593 3.555480e+06 -1.01348e+02 -594 3.604842e+06 -1.01228e+02 -595 3.654890e+06 -1.01108e+02 -596 3.705632e+06 -1.00988e+02 -597 3.757079e+06 -1.00869e+02 -598 3.809240e+06 -1.00749e+02 -599 3.862125e+06 -1.00629e+02 -600 3.915745e+06 -1.00509e+02 -601 3.970109e+06 -1.00390e+02 -602 4.025227e+06 -1.00270e+02 -603 4.081111e+06 -1.00150e+02 -604 4.137771e+06 -1.00030e+02 -605 4.195218e+06 -9.99106e+01 -606 4.253462e+06 -9.97908e+01 -607 4.312514e+06 -9.96710e+01 -608 4.372387e+06 -9.95513e+01 -609 4.433090e+06 -9.94315e+01 -610 4.494637e+06 -9.93118e+01 -611 4.557038e+06 -9.91920e+01 -612 4.620305e+06 -9.90722e+01 -613 4.684451e+06 -9.89525e+01 -614 4.749487e+06 -9.88327e+01 -615 4.815426e+06 -9.87130e+01 -616 4.882281e+06 -9.85932e+01 -617 4.950064e+06 -9.84734e+01 -618 5.018787e+06 -9.83537e+01 -619 5.088465e+06 -9.82339e+01 -620 5.159111e+06 -9.81142e+01 -621 5.230737e+06 -9.79944e+01 -622 5.303357e+06 -9.78746e+01 -623 5.376986e+06 -9.77549e+01 -624 5.451637e+06 -9.76351e+01 -625 5.527325e+06 -9.75154e+01 -626 5.604063e+06 -9.73956e+01 -627 5.681866e+06 -9.72758e+01 -628 5.760750e+06 -9.71561e+01 -629 5.840729e+06 -9.70363e+01 -630 5.921818e+06 -9.69166e+01 -631 6.004034e+06 -9.67968e+01 -632 6.087390e+06 -9.66770e+01 -633 6.171904e+06 -9.65573e+01 -634 6.257591e+06 -9.64375e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -635 6.344468e+06 -9.63178e+01 -636 6.432551e+06 -9.61980e+01 -637 6.521857e+06 -9.60782e+01 -638 6.612403e+06 -9.59585e+01 -639 6.704205e+06 -9.58387e+01 -640 6.797283e+06 -9.57190e+01 -641 6.891652e+06 -9.55992e+01 -642 6.987332e+06 -9.54794e+01 -643 7.084340e+06 -9.53597e+01 -644 7.182695e+06 -9.52399e+01 -645 7.282415e+06 -9.51202e+01 -646 7.383520e+06 -9.50004e+01 -647 7.486029e+06 -9.48806e+01 -648 7.589961e+06 -9.47609e+01 -649 7.695335e+06 -9.46411e+01 -650 7.802173e+06 -9.45214e+01 -651 7.910494e+06 -9.44016e+01 -652 8.020319e+06 -9.42818e+01 -653 8.131668e+06 -9.41621e+01 -654 8.244563e+06 -9.40423e+01 -655 8.359026e+06 -9.39226e+01 -656 8.475078e+06 -9.38028e+01 -657 8.592741e+06 -9.36830e+01 -658 8.712038e+06 -9.35633e+01 -659 8.832991e+06 -9.34435e+01 -660 8.955623e+06 -9.33238e+01 -661 9.079958e+06 -9.32040e+01 -662 9.206019e+06 -9.30842e+01 -663 9.333830e+06 -9.29645e+01 -664 9.463415e+06 -9.28447e+01 -665 9.594800e+06 -9.27250e+01 -666 9.728009e+06 -9.26052e+01 -667 9.863067e+06 -9.24854e+01 -668 1.000000e+07 -9.23657e+01 -669 1.013883e+07 -9.22459e+01 -670 1.027960e+07 -9.21262e+01 -671 1.042231e+07 -9.20064e+01 -672 1.056701e+07 -9.18866e+01 -673 1.071372e+07 -9.17669e+01 -674 1.086246e+07 -9.16471e+01 -675 1.101327e+07 -9.15274e+01 -676 1.116617e+07 -9.14076e+01 -677 1.132119e+07 -9.12878e+01 -678 1.147837e+07 -9.11681e+01 -679 1.163773e+07 -9.10483e+01 -680 1.179930e+07 -9.09286e+01 -681 1.196312e+07 -9.08088e+01 -682 1.212920e+07 -9.06891e+01 -683 1.229760e+07 -9.05693e+01 -684 1.246833e+07 -9.04495e+01 -685 1.264144e+07 -9.03298e+01 -686 1.281694e+07 -9.02100e+01 -687 1.299489e+07 -9.00903e+01 -688 1.317530e+07 -8.99705e+01 -689 1.335822e+07 -8.98507e+01 -690 1.354368e+07 -8.97310e+01 -691 1.373171e+07 -8.96112e+01 -692 1.392235e+07 -8.94915e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -693 1.411564e+07 -8.93717e+01 -694 1.431161e+07 -8.92519e+01 -695 1.451031e+07 -8.91322e+01 -696 1.471176e+07 -8.90124e+01 -697 1.491601e+07 -8.88927e+01 -698 1.512310e+07 -8.87729e+01 -699 1.533306e+07 -8.86532e+01 -700 1.554593e+07 -8.85334e+01 -701 1.576176e+07 -8.84136e+01 -702 1.598059e+07 -8.82939e+01 -703 1.620246e+07 -8.81741e+01 -704 1.642740e+07 -8.80544e+01 -705 1.665547e+07 -8.79346e+01 -706 1.688670e+07 -8.78149e+01 -707 1.712115e+07 -8.76951e+01 -708 1.735885e+07 -8.75753e+01 -709 1.759985e+07 -8.74556e+01 -710 1.784420e+07 -8.73358e+01 -711 1.809194e+07 -8.72161e+01 -712 1.834311e+07 -8.70963e+01 -713 1.859778e+07 -8.69766e+01 -714 1.885598e+07 -8.68568e+01 -715 1.911777e+07 -8.67370e+01 -716 1.938319e+07 -8.66173e+01 -717 1.965229e+07 -8.64975e+01 -718 1.992513e+07 -8.63778e+01 -719 2.020176e+07 -8.62580e+01 -720 2.048223e+07 -8.61383e+01 -721 2.076659e+07 -8.60185e+01 -722 2.105491e+07 -8.58987e+01 -723 2.134722e+07 -8.57790e+01 -724 2.164359e+07 -8.56592e+01 -725 2.194408e+07 -8.55395e+01 -726 2.224874e+07 -8.54197e+01 -727 2.255763e+07 -8.53000e+01 -728 2.287080e+07 -8.51802e+01 -729 2.318833e+07 -8.50605e+01 -730 2.351026e+07 -8.49407e+01 -731 2.383667e+07 -8.48209e+01 -732 2.416760e+07 -8.47012e+01 -733 2.450313e+07 -8.45814e+01 -734 2.484332e+07 -8.44617e+01 -735 2.518823e+07 -8.43419e+01 -736 2.553793e+07 -8.42222e+01 -737 2.589248e+07 -8.41024e+01 -738 2.625196e+07 -8.39827e+01 -739 2.661642e+07 -8.38629e+01 -740 2.698595e+07 -8.37432e+01 -741 2.736061e+07 -8.36234e+01 -742 2.774047e+07 -8.35037e+01 -743 2.812560e+07 -8.33839e+01 -744 2.851608e+07 -8.32642e+01 -745 2.891198e+07 -8.31444e+01 -746 2.931338e+07 -8.30246e+01 -747 2.972035e+07 -8.29049e+01 -748 3.013297e+07 -8.27851e+01 -749 3.055132e+07 -8.26654e+01 -750 3.097547e+07 -8.25456e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -751 3.140552e+07 -8.24259e+01 -752 3.184154e+07 -8.23061e+01 -753 3.228361e+07 -8.21864e+01 -754 3.273181e+07 -8.20666e+01 -755 3.318624e+07 -8.19469e+01 -756 3.364698e+07 -8.18271e+01 -757 3.411412e+07 -8.17074e+01 -758 3.458774e+07 -8.15876e+01 -759 3.506793e+07 -8.14679e+01 -760 3.555480e+07 -8.13482e+01 -761 3.604842e+07 -8.12284e+01 -762 3.654890e+07 -8.11087e+01 -763 3.705632e+07 -8.09889e+01 -764 3.757079e+07 -8.08692e+01 -765 3.809240e+07 -8.07494e+01 -766 3.862125e+07 -8.06297e+01 -767 3.915745e+07 -8.05099e+01 -768 3.970109e+07 -8.03902e+01 -769 4.025227e+07 -8.02704e+01 -770 4.081111e+07 -8.01507e+01 -771 4.137771e+07 -8.00310e+01 -772 4.195218e+07 -7.99112e+01 -773 4.253462e+07 -7.97915e+01 -774 4.312514e+07 -7.96717e+01 -775 4.372387e+07 -7.95520e+01 -776 4.433090e+07 -7.94322e+01 -777 4.494637e+07 -7.93125e+01 -778 4.557038e+07 -7.91928e+01 -779 4.620305e+07 -7.90730e+01 -780 4.684451e+07 -7.89533e+01 -781 4.749487e+07 -7.88336e+01 -782 4.815426e+07 -7.87138e+01 -783 4.882281e+07 -7.85941e+01 -784 4.950064e+07 -7.84743e+01 -785 5.018787e+07 -7.83546e+01 -786 5.088465e+07 -7.82349e+01 -787 5.159111e+07 -7.81151e+01 -788 5.230737e+07 -7.79954e+01 -789 5.303357e+07 -7.78757e+01 -790 5.376986e+07 -7.77559e+01 -791 5.451637e+07 -7.76362e+01 -792 5.527325e+07 -7.75165e+01 -793 5.604063e+07 -7.73968e+01 -794 5.681866e+07 -7.72770e+01 -795 5.760750e+07 -7.71573e+01 -796 5.840729e+07 -7.70376e+01 -797 5.921818e+07 -7.69179e+01 -798 6.004034e+07 -7.67981e+01 -799 6.087390e+07 -7.66784e+01 -800 6.171904e+07 -7.65587e+01 -801 6.257591e+07 -7.64390e+01 -802 6.344468e+07 -7.63192e+01 -803 6.432551e+07 -7.61995e+01 -804 6.521857e+07 -7.60798e+01 -805 6.612403e+07 -7.59601e+01 -806 6.704205e+07 -7.58404e+01 -807 6.797283e+07 -7.57207e+01 -808 6.891652e+07 -7.56010e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -809 6.987332e+07 -7.54812e+01 -810 7.084340e+07 -7.53615e+01 -811 7.182695e+07 -7.52418e+01 -812 7.282415e+07 -7.51221e+01 -813 7.383520e+07 -7.50024e+01 -814 7.486029e+07 -7.48827e+01 -815 7.589961e+07 -7.47630e+01 -816 7.695335e+07 -7.46433e+01 -817 7.802173e+07 -7.45236e+01 -818 7.910494e+07 -7.44039e+01 -819 8.020319e+07 -7.42842e+01 -820 8.131668e+07 -7.41645e+01 -821 8.244563e+07 -7.40448e+01 -822 8.359026e+07 -7.39251e+01 -823 8.475078e+07 -7.38055e+01 -824 8.592741e+07 -7.36858e+01 -825 8.712038e+07 -7.35661e+01 -826 8.832991e+07 -7.34464e+01 -827 8.955623e+07 -7.33267e+01 -828 9.079958e+07 -7.32070e+01 -829 9.206019e+07 -7.30874e+01 -830 9.333830e+07 -7.29677e+01 -831 9.463415e+07 -7.28480e+01 -832 9.594800e+07 -7.27284e+01 -833 9.728009e+07 -7.26087e+01 -834 9.863067e+07 -7.24890e+01 -835 1.000000e+08 -7.23694e+01 -836 1.013883e+08 -7.22497e+01 -837 1.027960e+08 -7.21301e+01 -838 1.042231e+08 -7.20104e+01 -839 1.056701e+08 -7.18908e+01 -840 1.071372e+08 -7.17711e+01 -841 1.086246e+08 -7.16515e+01 -842 1.101327e+08 -7.15319e+01 -843 1.116617e+08 -7.14122e+01 -844 1.132119e+08 -7.12926e+01 -845 1.147837e+08 -7.11730e+01 -846 1.163773e+08 -7.10533e+01 -847 1.179930e+08 -7.09337e+01 -848 1.196312e+08 -7.08141e+01 -849 1.212920e+08 -7.06945e+01 -850 1.229760e+08 -7.05749e+01 -851 1.246833e+08 -7.04553e+01 -852 1.264144e+08 -7.03357e+01 -853 1.281694e+08 -7.02161e+01 -854 1.299489e+08 -7.00965e+01 -855 1.317530e+08 -6.99769e+01 -856 1.335822e+08 -6.98573e+01 -857 1.354368e+08 -6.97378e+01 -858 1.373171e+08 -6.96182e+01 -859 1.392235e+08 -6.94986e+01 -860 1.411564e+08 -6.93791e+01 -861 1.431161e+08 -6.92595e+01 -862 1.451031e+08 -6.91400e+01 -863 1.471176e+08 -6.90204e+01 -864 1.491601e+08 -6.89009e+01 -865 1.512310e+08 -6.87814e+01 -866 1.533306e+08 -6.86619e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -867 1.554593e+08 -6.85423e+01 -868 1.576176e+08 -6.84228e+01 -869 1.598059e+08 -6.83033e+01 -870 1.620246e+08 -6.81838e+01 -871 1.642740e+08 -6.80643e+01 -872 1.665547e+08 -6.79449e+01 -873 1.688670e+08 -6.78254e+01 -874 1.712115e+08 -6.77059e+01 -875 1.735885e+08 -6.75865e+01 -876 1.759985e+08 -6.74670e+01 -877 1.784420e+08 -6.73476e+01 -878 1.809194e+08 -6.72282e+01 -879 1.834311e+08 -6.71087e+01 -880 1.859778e+08 -6.69893e+01 -881 1.885598e+08 -6.68699e+01 -882 1.911777e+08 -6.67505e+01 -883 1.938319e+08 -6.66312e+01 -884 1.965229e+08 -6.65118e+01 -885 1.992513e+08 -6.63924e+01 -886 2.020176e+08 -6.62731e+01 -887 2.048223e+08 -6.61537e+01 -888 2.076659e+08 -6.60344e+01 -889 2.105491e+08 -6.59151e+01 -890 2.134722e+08 -6.57958e+01 -891 2.164359e+08 -6.56765e+01 -892 2.194408e+08 -6.55573e+01 -893 2.224874e+08 -6.54380e+01 -894 2.255763e+08 -6.53187e+01 -895 2.287080e+08 -6.51995e+01 -896 2.318833e+08 -6.50803e+01 -897 2.351026e+08 -6.49611e+01 -898 2.383667e+08 -6.48419e+01 -899 2.416760e+08 -6.47227e+01 -900 2.450313e+08 -6.46036e+01 -901 2.484332e+08 -6.44844e+01 -902 2.518823e+08 -6.43653e+01 -903 2.553793e+08 -6.42462e+01 -904 2.589248e+08 -6.41271e+01 -905 2.625196e+08 -6.40081e+01 -906 2.661642e+08 -6.38890e+01 -907 2.698595e+08 -6.37700e+01 -908 2.736061e+08 -6.36510e+01 -909 2.774047e+08 -6.35320e+01 -910 2.812560e+08 -6.34130e+01 -911 2.851608e+08 -6.32941e+01 -912 2.891198e+08 -6.31752e+01 -913 2.931338e+08 -6.30563e+01 -914 2.972035e+08 -6.29374e+01 -915 3.013297e+08 -6.28186e+01 -916 3.055132e+08 -6.26997e+01 -917 3.097547e+08 -6.25809e+01 -918 3.140552e+08 -6.24622e+01 -919 3.184154e+08 -6.23434e+01 -920 3.228361e+08 -6.22247e+01 -921 3.273181e+08 -6.21060e+01 -922 3.318624e+08 -6.19874e+01 -923 3.364698e+08 -6.18687e+01 -924 3.411412e+08 -6.17502e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -925 3.458774e+08 -6.16316e+01 -926 3.506793e+08 -6.15131e+01 -927 3.555480e+08 -6.13946e+01 -928 3.604842e+08 -6.12761e+01 -929 3.654890e+08 -6.11577e+01 -930 3.705632e+08 -6.10393e+01 -931 3.757079e+08 -6.09209e+01 -932 3.809240e+08 -6.08026e+01 -933 3.862125e+08 -6.06844e+01 -934 3.915745e+08 -6.05661e+01 -935 3.970109e+08 -6.04479e+01 -936 4.025227e+08 -6.03298e+01 -937 4.081111e+08 -6.02117e+01 -938 4.137771e+08 -6.00936e+01 -939 4.195218e+08 -5.99756e+01 -940 4.253462e+08 -5.98577e+01 -941 4.312514e+08 -5.97397e+01 -942 4.372387e+08 -5.96219e+01 -943 4.433090e+08 -5.95041e+01 -944 4.494637e+08 -5.93863e+01 -945 4.557038e+08 -5.92686e+01 -946 4.620305e+08 -5.91510e+01 -947 4.684451e+08 -5.90334e+01 -948 4.749487e+08 -5.89158e+01 -949 4.815426e+08 -5.87984e+01 -950 4.882281e+08 -5.86810e+01 -951 4.950064e+08 -5.85636e+01 -952 5.018787e+08 -5.84464e+01 -953 5.088465e+08 -5.83291e+01 -954 5.159111e+08 -5.82120e+01 -955 5.230737e+08 -5.80949e+01 -956 5.303357e+08 -5.79779e+01 -957 5.376986e+08 -5.78610e+01 -958 5.451637e+08 -5.77442e+01 -959 5.527325e+08 -5.76274e+01 -960 5.604063e+08 -5.75107e+01 -961 5.681866e+08 -5.73941e+01 -962 5.760750e+08 -5.72776e+01 -963 5.840729e+08 -5.71612e+01 -964 5.921818e+08 -5.70449e+01 -965 6.004034e+08 -5.69286e+01 -966 6.087390e+08 -5.68125e+01 -967 6.171904e+08 -5.66964e+01 -968 6.257591e+08 -5.65805e+01 -969 6.344468e+08 -5.64646e+01 -970 6.432551e+08 -5.63489e+01 -971 6.521857e+08 -5.62333e+01 -972 6.612403e+08 -5.61177e+01 -973 6.704205e+08 -5.60023e+01 -974 6.797283e+08 -5.58870e+01 -975 6.891652e+08 -5.57719e+01 -976 6.987332e+08 -5.56568e+01 -977 7.084340e+08 -5.55419e+01 -978 7.182695e+08 -5.54271e+01 -979 7.282415e+08 -5.53124e+01 -980 7.383520e+08 -5.51979e+01 -981 7.486029e+08 -5.50835e+01 -982 7.589961e+08 -5.49693e+01 - -Index frequency db(v(33)-v(38)) --------------------------------------------------------------------------------- -983 7.695335e+08 -5.48552e+01 -984 7.802173e+08 -5.47413e+01 -985 7.910494e+08 -5.46275e+01 -986 8.020319e+08 -5.45139e+01 -987 8.131668e+08 -5.44004e+01 -988 8.244563e+08 -5.42871e+01 -989 8.359026e+08 -5.41740e+01 -990 8.475078e+08 -5.40611e+01 -991 8.592741e+08 -5.39483e+01 -992 8.712038e+08 -5.38357e+01 -993 8.832991e+08 -5.37233e+01 -994 8.955623e+08 -5.36112e+01 -995 9.079958e+08 -5.34992e+01 -996 9.206019e+08 -5.33874e+01 -997 9.333830e+08 -5.32758e+01 -998 9.463415e+08 -5.31645e+01 -999 9.594800e+08 -5.30534e+01 -1000 9.728009e+08 -5.29425e+01 -1001 9.863067e+08 -5.28318e+01 -1002 1.000000e+09 -5.27214e+01 - -CPU time since last call: 0.261 seconds. - -Total CPU time: 0.261 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4838.167969 MB. -Total ngspice program size = 7.300781 MB. -Resident set size = 1012.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 555.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec deleted file mode 100644 index c619e05..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.bundle_spec +++ /dev/null @@ -1,9 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -STP_AWG_26_ESCC_3901025_V12 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec deleted file mode 100644 index 741ccea..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/STP_AWG_26_ESCC_3901025_V12_ground_plane.spice_model_spec +++ /dev/null @@ -1,45 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -STP_AWG_26_ESCC_3901025_V12_ground_plane -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -60.0 End 1 impedance list -60.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -60.0 End 2 impedance list -60.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 ! order of vector fit model -log # frequency scale (log or lin) -1e5 1e9 200 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/analytic_solution.dat_reference deleted file mode 100644 index 579e573..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.99856787646092493 -3.6243172064741561E-003 - 100926.21909870484 0.99856755362473426 -3.6578593770644047E-003 - 101861.01701559752 0.99856722488001237 -3.6917114760653368E-003 - 102804.47320933097 0.99856689012048006 -3.7258763536570419E-003 - 103756.66787451849 0.99856654923801513 -3.7603568858666715E-003 - 104717.68194855202 0.99856620212262304 -3.7951559747946202E-003 - 105687.59711848051 0.99856584866240738 -3.8302765488402624E-003 - 106666.49582795388 0.99856548874353812 -3.8657215629302826E-003 - 107654.46128423158 0.99856512225022520 -3.9014939987505187E-003 - 108651.57746525372 0.99856474906468184 -3.9375968649752848E-003 - 109657.92912678099 0.99856436906709733 -3.9740331975028952E-003 - 110673.60180959746 0.99856398213560527 -4.0108060596911474E-003 - 111698.68184678226 0.99856358814624857 -4.0479185425925700E-003 - 112733.25637104872 0.99856318697295143 -4.0853737651959437E-003 - 113777.41332214902 0.99856277848748143 -4.1231748746650976E-003 - 114831.24145435111 0.99856236255942099 -4.1613250465824718E-003 - 115894.83034398119 0.99856193905613133 -4.1998274851931527E-003 - 116968.27039703846 0.99856150784271824 -4.2386854236513343E-003 - 118051.65285688055 0.99856106878200002 -4.2779021242673040E-003 - 119145.06981197748 0.99856062173446991 -4.3174808787584942E-003 - 120248.61420374122 0.99856016655826441 -4.3574250085010235E-003 - 121362.37983442418 0.99855970310912390 -4.3977378647813902E-003 - 122486.46137509307 0.99855923124036072 -4.4384228290544302E-003 - 123620.95437367691 0.99855875080282019 -4.4794833131980424E-003 - 124765.95526308684 0.99855826164484662 -4.5209227597741066E-003 - 125921.56136941510 0.99855776361224347 -4.5627446422879915E-003 - 127087.87092020595 0.99855725654823879 -4.6049524654522651E-003 - 128264.98305280598 0.99855674029344688 -4.6475497654508216E-003 - 129452.99782279160 0.99855621468582989 -4.6905401102051159E-003 - 130652.01621247199 0.99855567956065960 -4.7339270996430583E-003 - 131862.14013947485 0.99855513475048074 -4.7777143659696788E-003 - 133083.47246540760 0.99855458008506870 -4.8219055739384753E-003 - 134316.11700460155 0.99855401539139454 -4.8665044211256732E-003 - 135560.17853293690 0.99855344049358141 -4.9115146382070277E-003 - 136815.76279674706 0.99855285521286752 -4.9569399892346704E-003 - 138082.97652180924 0.99855225936756586 -5.0027842719182073E-003 - 139361.92742241436 0.99855165277302160 -5.0490513179055133E-003 - 140652.72421052365 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-1.8007939688146326 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/result_comparison.dat_reference deleted file mode 100644 index f523d1c..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00234348 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/spice_solution.dat_reference deleted file mode 100644 index cfa650e..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12/spice_solution.dat_reference +++ /dev/null @@ -1,1099 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:03:59 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -0 1.000000e+05 9.985857e-01 -1 1.009253e+05 9.985857e-01 -2 1.018591e+05 9.985857e-01 -3 1.028016e+05 9.985856e-01 -4 1.037528e+05 9.985856e-01 -5 1.047129e+05 9.985855e-01 -6 1.056818e+05 9.985855e-01 -7 1.066596e+05 9.985854e-01 -8 1.076465e+05 9.985854e-01 -9 1.086426e+05 9.985854e-01 -10 1.096478e+05 9.985853e-01 -11 1.106624e+05 9.985853e-01 -12 1.116863e+05 9.985852e-01 -13 1.127197e+05 9.985852e-01 -14 1.137627e+05 9.985851e-01 -15 1.148154e+05 9.985850e-01 -16 1.158777e+05 9.985850e-01 -17 1.169499e+05 9.985849e-01 -18 1.180321e+05 9.985849e-01 -19 1.191242e+05 9.985848e-01 -20 1.202264e+05 9.985848e-01 -21 1.213389e+05 9.985847e-01 -22 1.224616e+05 9.985846e-01 -23 1.235947e+05 9.985846e-01 -24 1.247384e+05 9.985845e-01 -25 1.258925e+05 9.985845e-01 -26 1.270574e+05 9.985844e-01 -27 1.282331e+05 9.985843e-01 -28 1.294196e+05 9.985843e-01 -29 1.306171e+05 9.985842e-01 -30 1.318257e+05 9.985841e-01 -31 1.330454e+05 9.985841e-01 -32 1.342765e+05 9.985840e-01 -33 1.355189e+05 9.985839e-01 -34 1.367729e+05 9.985838e-01 -35 1.380384e+05 9.985838e-01 -36 1.393157e+05 9.985837e-01 -37 1.406048e+05 9.985836e-01 -38 1.419058e+05 9.985835e-01 -39 1.432188e+05 9.985834e-01 -40 1.445440e+05 9.985833e-01 -41 1.458814e+05 9.985833e-01 -42 1.472313e+05 9.985832e-01 -43 1.485936e+05 9.985831e-01 -44 1.499685e+05 9.985830e-01 -45 1.513561e+05 9.985829e-01 -46 1.527566e+05 9.985828e-01 -47 1.541700e+05 9.985827e-01 -48 1.555966e+05 9.985826e-01 -49 1.570363e+05 9.985825e-01 -50 1.584893e+05 9.985824e-01 -51 1.599558e+05 9.985823e-01 -52 1.614359e+05 9.985822e-01 -53 1.629296e+05 9.985821e-01 -54 1.644372e+05 9.985820e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -55 1.659587e+05 9.985819e-01 -56 1.674943e+05 9.985818e-01 -57 1.690441e+05 9.985817e-01 -58 1.706082e+05 9.985815e-01 -59 1.721869e+05 9.985814e-01 -60 1.737801e+05 9.985813e-01 -61 1.753881e+05 9.985812e-01 -62 1.770109e+05 9.985810e-01 -63 1.786488e+05 9.985809e-01 -64 1.803018e+05 9.985808e-01 -65 1.819701e+05 9.985807e-01 -66 1.836538e+05 9.985805e-01 -67 1.853532e+05 9.985804e-01 -68 1.870682e+05 9.985802e-01 -69 1.887991e+05 9.985801e-01 -70 1.905461e+05 9.985799e-01 -71 1.923092e+05 9.985798e-01 -72 1.940886e+05 9.985796e-01 -73 1.958845e+05 9.985795e-01 -74 1.976970e+05 9.985793e-01 -75 1.995262e+05 9.985792e-01 -76 2.013724e+05 9.985790e-01 -77 2.032357e+05 9.985788e-01 -78 2.051162e+05 9.985787e-01 -79 2.070141e+05 9.985785e-01 -80 2.089296e+05 9.985783e-01 -81 2.108628e+05 9.985782e-01 -82 2.128139e+05 9.985780e-01 -83 2.147830e+05 9.985778e-01 -84 2.167704e+05 9.985776e-01 -85 2.187762e+05 9.985774e-01 -86 2.208005e+05 9.985772e-01 -87 2.228435e+05 9.985770e-01 -88 2.249055e+05 9.985768e-01 -89 2.269865e+05 9.985766e-01 -90 2.290868e+05 9.985764e-01 -91 2.312065e+05 9.985762e-01 -92 2.333458e+05 9.985759e-01 -93 2.355049e+05 9.985757e-01 -94 2.376840e+05 9.985755e-01 -95 2.398833e+05 9.985753e-01 -96 2.421029e+05 9.985750e-01 -97 2.443431e+05 9.985748e-01 -98 2.466039e+05 9.985745e-01 -99 2.488857e+05 9.985743e-01 -100 2.511886e+05 9.985740e-01 -101 2.535129e+05 9.985738e-01 -102 2.558586e+05 9.985735e-01 -103 2.582260e+05 9.985733e-01 -104 2.606154e+05 9.985730e-01 -105 2.630268e+05 9.985727e-01 -106 2.654606e+05 9.985724e-01 -107 2.679168e+05 9.985721e-01 -108 2.703958e+05 9.985718e-01 -109 2.728978e+05 9.985715e-01 -110 2.754229e+05 9.985712e-01 -111 2.779713e+05 9.985709e-01 -112 2.805434e+05 9.985706e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -113 2.831392e+05 9.985703e-01 -114 2.857591e+05 9.985700e-01 -115 2.884032e+05 9.985696e-01 -116 2.910717e+05 9.985693e-01 -117 2.937650e+05 9.985689e-01 -118 2.964831e+05 9.985686e-01 -119 2.992265e+05 9.985682e-01 -120 3.019952e+05 9.985678e-01 -121 3.047895e+05 9.985675e-01 -122 3.076097e+05 9.985671e-01 -123 3.104560e+05 9.985667e-01 -124 3.133286e+05 9.985663e-01 -125 3.162278e+05 9.985659e-01 -126 3.191538e+05 9.985655e-01 -127 3.221069e+05 9.985651e-01 -128 3.250873e+05 9.985647e-01 -129 3.280953e+05 9.985642e-01 -130 3.311311e+05 9.985638e-01 -131 3.341950e+05 9.985633e-01 -132 3.372873e+05 9.985629e-01 -133 3.404082e+05 9.985624e-01 -134 3.435579e+05 9.985619e-01 -135 3.467369e+05 9.985614e-01 -136 3.499452e+05 9.985610e-01 -137 3.531832e+05 9.985605e-01 -138 3.564511e+05 9.985599e-01 -139 3.597493e+05 9.985594e-01 -140 3.630781e+05 9.985589e-01 -141 3.664376e+05 9.985584e-01 -142 3.698282e+05 9.985578e-01 -143 3.732502e+05 9.985572e-01 -144 3.767038e+05 9.985567e-01 -145 3.801894e+05 9.985561e-01 -146 3.837072e+05 9.985555e-01 -147 3.872576e+05 9.985549e-01 -148 3.908409e+05 9.985543e-01 -149 3.944573e+05 9.985537e-01 -150 3.981072e+05 9.985530e-01 -151 4.017908e+05 9.985524e-01 -152 4.055085e+05 9.985517e-01 -153 4.092607e+05 9.985510e-01 -154 4.130475e+05 9.985503e-01 -155 4.168694e+05 9.985496e-01 -156 4.207266e+05 9.985489e-01 -157 4.246196e+05 9.985482e-01 -158 4.285485e+05 9.985475e-01 -159 4.325138e+05 9.985467e-01 -160 4.365158e+05 9.985459e-01 -161 4.405549e+05 9.985452e-01 -162 4.446313e+05 9.985444e-01 -163 4.487454e+05 9.985436e-01 -164 4.528976e+05 9.985427e-01 -165 4.570882e+05 9.985419e-01 -166 4.613176e+05 9.985410e-01 -167 4.655861e+05 9.985402e-01 -168 4.698941e+05 9.985393e-01 -169 4.742420e+05 9.985384e-01 -170 4.786301e+05 9.985375e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -171 4.830588e+05 9.985365e-01 -172 4.875285e+05 9.985356e-01 -173 4.920395e+05 9.985346e-01 -174 4.965923e+05 9.985336e-01 -175 5.011872e+05 9.985326e-01 -176 5.058247e+05 9.985316e-01 -177 5.105050e+05 9.985305e-01 -178 5.152286e+05 9.985294e-01 -179 5.199960e+05 9.985283e-01 -180 5.248075e+05 9.985272e-01 -181 5.296634e+05 9.985261e-01 -182 5.345644e+05 9.985250e-01 -183 5.395106e+05 9.985238e-01 -184 5.445027e+05 9.985226e-01 -185 5.495409e+05 9.985214e-01 -186 5.546257e+05 9.985201e-01 -187 5.597576e+05 9.985189e-01 -188 5.649370e+05 9.985176e-01 -189 5.701643e+05 9.985163e-01 -190 5.754399e+05 9.985150e-01 -191 5.807644e+05 9.985136e-01 -192 5.861382e+05 9.985122e-01 -193 5.915616e+05 9.985108e-01 -194 5.970353e+05 9.985094e-01 -195 6.025596e+05 9.985079e-01 -196 6.081350e+05 9.985064e-01 -197 6.137620e+05 9.985049e-01 -198 6.194411e+05 9.985034e-01 -199 6.251727e+05 9.985018e-01 -200 6.309573e+05 9.985002e-01 -201 6.367955e+05 9.984986e-01 -202 6.426877e+05 9.984969e-01 -203 6.486344e+05 9.984952e-01 -204 6.546362e+05 9.984935e-01 -205 6.606934e+05 9.984917e-01 -206 6.668068e+05 9.984899e-01 -207 6.729767e+05 9.984881e-01 -208 6.792036e+05 9.984863e-01 -209 6.854882e+05 9.984844e-01 -210 6.918310e+05 9.984825e-01 -211 6.982324e+05 9.984805e-01 -212 7.046931e+05 9.984785e-01 -213 7.112135e+05 9.984765e-01 -214 7.177943e+05 9.984744e-01 -215 7.244360e+05 9.984723e-01 -216 7.311391e+05 9.984701e-01 -217 7.379042e+05 9.984679e-01 -218 7.447320e+05 9.984657e-01 -219 7.516229e+05 9.984634e-01 -220 7.585776e+05 9.984611e-01 -221 7.655966e+05 9.984588e-01 -222 7.726806e+05 9.984564e-01 -223 7.798301e+05 9.984539e-01 -224 7.870458e+05 9.984514e-01 -225 7.943282e+05 9.984489e-01 -226 8.016781e+05 9.984463e-01 -227 8.090959e+05 9.984437e-01 -228 8.165824e+05 9.984410e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -229 8.241381e+05 9.984383e-01 -230 8.317638e+05 9.984355e-01 -231 8.394600e+05 9.984326e-01 -232 8.472274e+05 9.984298e-01 -233 8.550667e+05 9.984268e-01 -234 8.629785e+05 9.984238e-01 -235 8.709636e+05 9.984208e-01 -236 8.790225e+05 9.984177e-01 -237 8.871560e+05 9.984145e-01 -238 8.953648e+05 9.984113e-01 -239 9.036495e+05 9.984080e-01 -240 9.120108e+05 9.984047e-01 -241 9.204496e+05 9.984013e-01 -242 9.289664e+05 9.983978e-01 -243 9.375620e+05 9.983942e-01 -244 9.462372e+05 9.983906e-01 -245 9.549926e+05 9.983870e-01 -246 9.638290e+05 9.983832e-01 -247 9.727472e+05 9.983794e-01 -248 9.817479e+05 9.983756e-01 -249 9.908319e+05 9.983716e-01 -250 1.000000e+06 9.983676e-01 -251 1.009253e+06 9.983635e-01 -252 1.018591e+06 9.983593e-01 -253 1.028016e+06 9.983551e-01 -254 1.037528e+06 9.983508e-01 -255 1.047129e+06 9.983464e-01 -256 1.056818e+06 9.983419e-01 -257 1.066596e+06 9.983373e-01 -258 1.076465e+06 9.983326e-01 -259 1.086426e+06 9.983279e-01 -260 1.096478e+06 9.983231e-01 -261 1.106624e+06 9.983181e-01 -262 1.116863e+06 9.983131e-01 -263 1.127197e+06 9.983080e-01 -264 1.137627e+06 9.983028e-01 -265 1.148154e+06 9.982975e-01 -266 1.158777e+06 9.982921e-01 -267 1.169499e+06 9.982866e-01 -268 1.180321e+06 9.982810e-01 -269 1.191242e+06 9.982753e-01 -270 1.202264e+06 9.982695e-01 -271 1.213389e+06 9.982636e-01 -272 1.224616e+06 9.982576e-01 -273 1.235947e+06 9.982515e-01 -274 1.247384e+06 9.982452e-01 -275 1.258925e+06 9.982388e-01 -276 1.270574e+06 9.982324e-01 -277 1.282331e+06 9.982258e-01 -278 1.294196e+06 9.982190e-01 -279 1.306171e+06 9.982122e-01 -280 1.318257e+06 9.982052e-01 -281 1.330454e+06 9.981981e-01 -282 1.342765e+06 9.981908e-01 -283 1.355189e+06 9.981835e-01 -284 1.367729e+06 9.981760e-01 -285 1.380384e+06 9.981683e-01 -286 1.393157e+06 9.981605e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -287 1.406048e+06 9.981526e-01 -288 1.419058e+06 9.981445e-01 -289 1.432188e+06 9.981363e-01 -290 1.445440e+06 9.981279e-01 -291 1.458814e+06 9.981193e-01 -292 1.472313e+06 9.981106e-01 -293 1.485936e+06 9.981018e-01 -294 1.499685e+06 9.980927e-01 -295 1.513561e+06 9.980835e-01 -296 1.527566e+06 9.980742e-01 -297 1.541700e+06 9.980646e-01 -298 1.555966e+06 9.980549e-01 -299 1.570363e+06 9.980450e-01 -300 1.584893e+06 9.980349e-01 -301 1.599558e+06 9.980247e-01 -302 1.614359e+06 9.980142e-01 -303 1.629296e+06 9.980036e-01 -304 1.644372e+06 9.979927e-01 -305 1.659587e+06 9.979817e-01 -306 1.674943e+06 9.979704e-01 -307 1.690441e+06 9.979590e-01 -308 1.706082e+06 9.979473e-01 -309 1.721869e+06 9.979354e-01 -310 1.737801e+06 9.979233e-01 -311 1.753881e+06 9.979109e-01 -312 1.770109e+06 9.978984e-01 -313 1.786488e+06 9.978856e-01 -314 1.803018e+06 9.978726e-01 -315 1.819701e+06 9.978593e-01 -316 1.836538e+06 9.978458e-01 -317 1.853532e+06 9.978320e-01 -318 1.870682e+06 9.978180e-01 -319 1.887991e+06 9.978037e-01 -320 1.905461e+06 9.977891e-01 -321 1.923092e+06 9.977743e-01 -322 1.940886e+06 9.977592e-01 -323 1.958845e+06 9.977438e-01 -324 1.976970e+06 9.977282e-01 -325 1.995262e+06 9.977122e-01 -326 2.013724e+06 9.976960e-01 -327 2.032357e+06 9.976795e-01 -328 2.051162e+06 9.976626e-01 -329 2.070141e+06 9.976454e-01 -330 2.089296e+06 9.976280e-01 -331 2.108628e+06 9.976102e-01 -332 2.128139e+06 9.975920e-01 -333 2.147830e+06 9.975736e-01 -334 2.167704e+06 9.975548e-01 -335 2.187762e+06 9.975356e-01 -336 2.208005e+06 9.975161e-01 -337 2.228435e+06 9.974962e-01 -338 2.249055e+06 9.974760e-01 -339 2.269865e+06 9.974554e-01 -340 2.290868e+06 9.974344e-01 -341 2.312065e+06 9.974130e-01 -342 2.333458e+06 9.973912e-01 -343 2.355049e+06 9.973690e-01 -344 2.376840e+06 9.973465e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -345 2.398833e+06 9.973235e-01 -346 2.421029e+06 9.973000e-01 -347 2.443431e+06 9.972762e-01 -348 2.466039e+06 9.972519e-01 -349 2.488857e+06 9.972271e-01 -350 2.511886e+06 9.972019e-01 -351 2.535129e+06 9.971762e-01 -352 2.558586e+06 9.971501e-01 -353 2.582260e+06 9.971235e-01 -354 2.606154e+06 9.970963e-01 -355 2.630268e+06 9.970687e-01 -356 2.654606e+06 9.970406e-01 -357 2.679168e+06 9.970119e-01 -358 2.703958e+06 9.969828e-01 -359 2.728978e+06 9.969531e-01 -360 2.754229e+06 9.969228e-01 -361 2.779713e+06 9.968920e-01 -362 2.805434e+06 9.968606e-01 -363 2.831392e+06 9.968286e-01 -364 2.857591e+06 9.967961e-01 -365 2.884032e+06 9.967629e-01 -366 2.910717e+06 9.967291e-01 -367 2.937650e+06 9.966948e-01 -368 2.964831e+06 9.966597e-01 -369 2.992265e+06 9.966241e-01 -370 3.019952e+06 9.965878e-01 -371 3.047895e+06 9.965508e-01 -372 3.076097e+06 9.965131e-01 -373 3.104560e+06 9.964748e-01 -374 3.133286e+06 9.964357e-01 -375 3.162278e+06 9.963959e-01 -376 3.191538e+06 9.963554e-01 -377 3.221069e+06 9.963141e-01 -378 3.250873e+06 9.962721e-01 -379 3.280953e+06 9.962293e-01 -380 3.311311e+06 9.961858e-01 -381 3.341950e+06 9.961414e-01 -382 3.372873e+06 9.960962e-01 -383 3.404082e+06 9.960502e-01 -384 3.435579e+06 9.960033e-01 -385 3.467369e+06 9.959556e-01 -386 3.499452e+06 9.959070e-01 -387 3.531832e+06 9.958575e-01 -388 3.564511e+06 9.958071e-01 -389 3.597493e+06 9.957558e-01 -390 3.630781e+06 9.957036e-01 -391 3.664376e+06 9.956504e-01 -392 3.698282e+06 9.955962e-01 -393 3.732502e+06 9.955410e-01 -394 3.767038e+06 9.954848e-01 -395 3.801894e+06 9.954276e-01 -396 3.837072e+06 9.953694e-01 -397 3.872576e+06 9.953100e-01 -398 3.908409e+06 9.952496e-01 -399 3.944573e+06 9.951881e-01 -400 3.981072e+06 9.951255e-01 -401 4.017908e+06 9.950617e-01 -402 4.055085e+06 9.949968e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -403 4.092607e+06 9.949307e-01 -404 4.130475e+06 9.948633e-01 -405 4.168694e+06 9.947948e-01 -406 4.207266e+06 9.947250e-01 -407 4.246196e+06 9.946539e-01 -408 4.285485e+06 9.945816e-01 -409 4.325138e+06 9.945079e-01 -410 4.365158e+06 9.944328e-01 -411 4.405549e+06 9.943565e-01 -412 4.446313e+06 9.942787e-01 -413 4.487454e+06 9.941995e-01 -414 4.528976e+06 9.941189e-01 -415 4.570882e+06 9.940368e-01 -416 4.613176e+06 9.939532e-01 -417 4.655861e+06 9.938681e-01 -418 4.698941e+06 9.937815e-01 -419 4.742420e+06 9.936933e-01 -420 4.786301e+06 9.936035e-01 -421 4.830588e+06 9.935121e-01 -422 4.875285e+06 9.934190e-01 -423 4.920395e+06 9.933242e-01 -424 4.965923e+06 9.932277e-01 -425 5.011872e+06 9.931295e-01 -426 5.058247e+06 9.930295e-01 -427 5.105050e+06 9.929277e-01 -428 5.152286e+06 9.928241e-01 -429 5.199960e+06 9.927186e-01 -430 5.248075e+06 9.926112e-01 -431 5.296634e+06 9.925019e-01 -432 5.345644e+06 9.923906e-01 -433 5.395106e+06 9.922773e-01 -434 5.445027e+06 9.921620e-01 -435 5.495409e+06 9.920446e-01 -436 5.546257e+06 9.919250e-01 -437 5.597576e+06 9.918034e-01 -438 5.649370e+06 9.916796e-01 -439 5.701643e+06 9.915535e-01 -440 5.754399e+06 9.914252e-01 -441 5.807644e+06 9.912946e-01 -442 5.861382e+06 9.911617e-01 -443 5.915616e+06 9.910264e-01 -444 5.970353e+06 9.908887e-01 -445 6.025596e+06 9.907485e-01 -446 6.081350e+06 9.906058e-01 -447 6.137620e+06 9.904606e-01 -448 6.194411e+06 9.903128e-01 -449 6.251727e+06 9.901624e-01 -450 6.309573e+06 9.900093e-01 -451 6.367955e+06 9.898535e-01 -452 6.426877e+06 9.896949e-01 -453 6.486344e+06 9.895335e-01 -454 6.546362e+06 9.893693e-01 -455 6.606934e+06 9.892022e-01 -456 6.668068e+06 9.890321e-01 -457 6.729767e+06 9.888590e-01 -458 6.792036e+06 9.886829e-01 -459 6.854882e+06 9.885037e-01 -460 6.918310e+06 9.883213e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -461 6.982324e+06 9.881357e-01 -462 7.046931e+06 9.879468e-01 -463 7.112135e+06 9.877547e-01 -464 7.177943e+06 9.875591e-01 -465 7.244360e+06 9.873602e-01 -466 7.311391e+06 9.871578e-01 -467 7.379042e+06 9.869518e-01 -468 7.447320e+06 9.867423e-01 -469 7.516229e+06 9.865291e-01 -470 7.585776e+06 9.863122e-01 -471 7.655966e+06 9.860915e-01 -472 7.726806e+06 9.858670e-01 -473 7.798301e+06 9.856386e-01 -474 7.870458e+06 9.854063e-01 -475 7.943282e+06 9.851699e-01 -476 8.016781e+06 9.849295e-01 -477 8.090959e+06 9.846849e-01 -478 8.165824e+06 9.844361e-01 -479 8.241381e+06 9.841831e-01 -480 8.317638e+06 9.839257e-01 -481 8.394600e+06 9.836639e-01 -482 8.472274e+06 9.833976e-01 -483 8.550667e+06 9.831268e-01 -484 8.629785e+06 9.828513e-01 -485 8.709636e+06 9.825712e-01 -486 8.790225e+06 9.822863e-01 -487 8.871560e+06 9.819966e-01 -488 8.953648e+06 9.817019e-01 -489 9.036495e+06 9.814023e-01 -490 9.120108e+06 9.810976e-01 -491 9.204496e+06 9.807878e-01 -492 9.289664e+06 9.804728e-01 -493 9.375620e+06 9.801525e-01 -494 9.462372e+06 9.798269e-01 -495 9.549926e+06 9.794958e-01 -496 9.638290e+06 9.791591e-01 -497 9.727472e+06 9.788169e-01 -498 9.817479e+06 9.784690e-01 -499 9.908319e+06 9.781153e-01 -500 1.000000e+07 9.777558e-01 -501 1.009253e+07 9.773903e-01 -502 1.018591e+07 9.770188e-01 -503 1.028016e+07 9.766412e-01 -504 1.037528e+07 9.762574e-01 -505 1.047129e+07 9.758674e-01 -506 1.056818e+07 9.754709e-01 -507 1.066596e+07 9.750681e-01 -508 1.076465e+07 9.746587e-01 -509 1.086426e+07 9.742426e-01 -510 1.096478e+07 9.738199e-01 -511 1.106624e+07 9.733903e-01 -512 1.116863e+07 9.729539e-01 -513 1.127197e+07 9.725104e-01 -514 1.137627e+07 9.720599e-01 -515 1.148154e+07 9.716022e-01 -516 1.158777e+07 9.711372e-01 -517 1.169499e+07 9.706649e-01 -518 1.180321e+07 9.701851e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -519 1.191242e+07 9.696977e-01 -520 1.202264e+07 9.692028e-01 -521 1.213389e+07 9.687000e-01 -522 1.224616e+07 9.681895e-01 -523 1.235947e+07 9.676710e-01 -524 1.247384e+07 9.671445e-01 -525 1.258925e+07 9.666099e-01 -526 1.270574e+07 9.660671e-01 -527 1.282331e+07 9.655160e-01 -528 1.294196e+07 9.649565e-01 -529 1.306171e+07 9.643884e-01 -530 1.318257e+07 9.638118e-01 -531 1.330454e+07 9.632265e-01 -532 1.342765e+07 9.626324e-01 -533 1.355189e+07 9.620294e-01 -534 1.367729e+07 9.614175e-01 -535 1.380384e+07 9.607964e-01 -536 1.393157e+07 9.601662e-01 -537 1.406048e+07 9.595268e-01 -538 1.419058e+07 9.588780e-01 -539 1.432188e+07 9.582198e-01 -540 1.445440e+07 9.575520e-01 -541 1.458814e+07 9.568746e-01 -542 1.472313e+07 9.561875e-01 -543 1.485936e+07 9.554906e-01 -544 1.499685e+07 9.547838e-01 -545 1.513561e+07 9.540670e-01 -546 1.527566e+07 9.533402e-01 -547 1.541700e+07 9.526032e-01 -548 1.555966e+07 9.518559e-01 -549 1.570363e+07 9.510984e-01 -550 1.584893e+07 9.503304e-01 -551 1.599558e+07 9.495520e-01 -552 1.614359e+07 9.487630e-01 -553 1.629296e+07 9.479634e-01 -554 1.644372e+07 9.471531e-01 -555 1.659587e+07 9.463320e-01 -556 1.674943e+07 9.455000e-01 -557 1.690441e+07 9.446572e-01 -558 1.706082e+07 9.438033e-01 -559 1.721869e+07 9.429385e-01 -560 1.737801e+07 9.420625e-01 -561 1.753881e+07 9.411753e-01 -562 1.770109e+07 9.402770e-01 -563 1.786488e+07 9.393673e-01 -564 1.803018e+07 9.384464e-01 -565 1.819701e+07 9.375141e-01 -566 1.836538e+07 9.365703e-01 -567 1.853532e+07 9.356152e-01 -568 1.870682e+07 9.346485e-01 -569 1.887991e+07 9.336703e-01 -570 1.905461e+07 9.326806e-01 -571 1.923092e+07 9.316793e-01 -572 1.940886e+07 9.306664e-01 -573 1.958845e+07 9.296419e-01 -574 1.976970e+07 9.286058e-01 -575 1.995262e+07 9.275580e-01 -576 2.013724e+07 9.264987e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -577 2.032357e+07 9.254277e-01 -578 2.051162e+07 9.243450e-01 -579 2.070141e+07 9.232508e-01 -580 2.089296e+07 9.221449e-01 -581 2.108628e+07 9.210275e-01 -582 2.128139e+07 9.198985e-01 -583 2.147830e+07 9.187580e-01 -584 2.167704e+07 9.176061e-01 -585 2.187762e+07 9.164427e-01 -586 2.208005e+07 9.152679e-01 -587 2.228435e+07 9.140818e-01 -588 2.249055e+07 9.128845e-01 -589 2.269865e+07 9.116760e-01 -590 2.290868e+07 9.104563e-01 -591 2.312065e+07 9.092257e-01 -592 2.333458e+07 9.079841e-01 -593 2.355049e+07 9.067317e-01 -594 2.376840e+07 9.054685e-01 -595 2.398833e+07 9.041948e-01 -596 2.421029e+07 9.029105e-01 -597 2.443431e+07 9.016159e-01 -598 2.466039e+07 9.003111e-01 -599 2.488857e+07 8.989962e-01 -600 2.511886e+07 8.976714e-01 -601 2.535129e+07 8.963368e-01 -602 2.558586e+07 8.949927e-01 -603 2.582260e+07 8.936391e-01 -604 2.606154e+07 8.922764e-01 -605 2.630268e+07 8.909046e-01 -606 2.654606e+07 8.895240e-01 -607 2.679168e+07 8.881348e-01 -608 2.703958e+07 8.867373e-01 -609 2.728978e+07 8.853317e-01 -610 2.754229e+07 8.839182e-01 -611 2.779713e+07 8.824971e-01 -612 2.805434e+07 8.810687e-01 -613 2.831392e+07 8.796331e-01 -614 2.857591e+07 8.781909e-01 -615 2.884032e+07 8.767421e-01 -616 2.910717e+07 8.752872e-01 -617 2.937650e+07 8.738265e-01 -618 2.964831e+07 8.723602e-01 -619 2.992265e+07 8.708888e-01 -620 3.019952e+07 8.694126e-01 -621 3.047895e+07 8.679320e-01 -622 3.076097e+07 8.664473e-01 -623 3.104560e+07 8.649590e-01 -624 3.133286e+07 8.634674e-01 -625 3.162278e+07 8.619730e-01 -626 3.191538e+07 8.604761e-01 -627 3.221069e+07 8.589773e-01 -628 3.250873e+07 8.574770e-01 -629 3.280953e+07 8.559756e-01 -630 3.311311e+07 8.544736e-01 -631 3.341950e+07 8.529716e-01 -632 3.372873e+07 8.514700e-01 -633 3.404082e+07 8.499693e-01 -634 3.435579e+07 8.484701e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -635 3.467369e+07 8.469729e-01 -636 3.499452e+07 8.454782e-01 -637 3.531832e+07 8.439868e-01 -638 3.564511e+07 8.424990e-01 -639 3.597493e+07 8.410155e-01 -640 3.630781e+07 8.395370e-01 -641 3.664376e+07 8.380641e-01 -642 3.698282e+07 8.365973e-01 -643 3.732502e+07 8.351374e-01 -644 3.767038e+07 8.336850e-01 -645 3.801894e+07 8.322408e-01 -646 3.837072e+07 8.308055e-01 -647 3.872576e+07 8.293799e-01 -648 3.908409e+07 8.279645e-01 -649 3.944573e+07 8.265602e-01 -650 3.981072e+07 8.251678e-01 -651 4.017908e+07 8.237880e-01 -652 4.055085e+07 8.224215e-01 -653 4.092607e+07 8.210693e-01 -654 4.130475e+07 8.197321e-01 -655 4.168694e+07 8.184107e-01 -656 4.207266e+07 8.171060e-01 -657 4.246196e+07 8.158188e-01 -658 4.285485e+07 8.145501e-01 -659 4.325138e+07 8.133008e-01 -660 4.365158e+07 8.120717e-01 -661 4.405549e+07 8.108638e-01 -662 4.446313e+07 8.096780e-01 -663 4.487454e+07 8.085153e-01 -664 4.528976e+07 8.073766e-01 -665 4.570882e+07 8.062631e-01 -666 4.613176e+07 8.051756e-01 -667 4.655861e+07 8.041153e-01 -668 4.698941e+07 8.030832e-01 -669 4.742420e+07 8.020803e-01 -670 4.786301e+07 8.011078e-01 -671 4.830588e+07 8.001667e-01 -672 4.875285e+07 7.992582e-01 -673 4.920395e+07 7.983834e-01 -674 4.965923e+07 7.975435e-01 -675 5.011872e+07 7.967397e-01 -676 5.058247e+07 7.959732e-01 -677 5.105050e+07 7.952452e-01 -678 5.152286e+07 7.945570e-01 -679 5.199960e+07 7.939097e-01 -680 5.248075e+07 7.933048e-01 -681 5.296634e+07 7.927435e-01 -682 5.345644e+07 7.922271e-01 -683 5.395106e+07 7.917570e-01 -684 5.445027e+07 7.913346e-01 -685 5.495409e+07 7.909612e-01 -686 5.546257e+07 7.906383e-01 -687 5.597576e+07 7.903672e-01 -688 5.649370e+07 7.901495e-01 -689 5.701643e+07 7.899867e-01 -690 5.754399e+07 7.898801e-01 -691 5.807644e+07 7.898313e-01 -692 5.861382e+07 7.898419e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -693 5.915616e+07 7.899134e-01 -694 5.970353e+07 7.900474e-01 -695 6.025596e+07 7.902454e-01 -696 6.081350e+07 7.905091e-01 -697 6.137620e+07 7.908401e-01 -698 6.194411e+07 7.912400e-01 -699 6.251727e+07 7.917105e-01 -700 6.309573e+07 7.922532e-01 -701 6.367955e+07 7.928698e-01 -702 6.426877e+07 7.935619e-01 -703 6.486344e+07 7.943313e-01 -704 6.546362e+07 7.951796e-01 -705 6.606934e+07 7.961085e-01 -706 6.668068e+07 7.971196e-01 -707 6.729767e+07 7.982147e-01 -708 6.792036e+07 7.993954e-01 -709 6.854882e+07 8.006632e-01 -710 6.918310e+07 8.020199e-01 -711 6.982324e+07 8.034669e-01 -712 7.046931e+07 8.050058e-01 -713 7.112135e+07 8.066381e-01 -714 7.177943e+07 8.083652e-01 -715 7.244360e+07 8.101884e-01 -716 7.311391e+07 8.121091e-01 -717 7.379042e+07 8.141284e-01 -718 7.447320e+07 8.162473e-01 -719 7.516229e+07 8.184669e-01 -720 7.585776e+07 8.207880e-01 -721 7.655966e+07 8.232111e-01 -722 7.726806e+07 8.257370e-01 -723 7.798301e+07 8.283657e-01 -724 7.870458e+07 8.310975e-01 -725 7.943282e+07 8.339321e-01 -726 8.016781e+07 8.368691e-01 -727 8.090959e+07 8.399078e-01 -728 8.165824e+07 8.430470e-01 -729 8.241381e+07 8.462854e-01 -730 8.317638e+07 8.496212e-01 -731 8.394600e+07 8.530519e-01 -732 8.472274e+07 8.565750e-01 -733 8.550667e+07 8.601869e-01 -734 8.629785e+07 8.638840e-01 -735 8.709636e+07 8.676616e-01 -736 8.790225e+07 8.715147e-01 -737 8.871560e+07 8.754373e-01 -738 8.953648e+07 8.794228e-01 -739 9.036495e+07 8.834637e-01 -740 9.120108e+07 8.875517e-01 -741 9.204496e+07 8.916774e-01 -742 9.289664e+07 8.958308e-01 -743 9.375620e+07 9.000004e-01 -744 9.462372e+07 9.041741e-01 -745 9.549926e+07 9.083385e-01 -746 9.638290e+07 9.124791e-01 -747 9.727472e+07 9.165804e-01 -748 9.817479e+07 9.206258e-01 -749 9.908319e+07 9.245975e-01 -750 1.000000e+08 9.284767e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -751 1.009253e+08 9.322437e-01 -752 1.018591e+08 9.358778e-01 -753 1.028016e+08 9.393576e-01 -754 1.037528e+08 9.426609e-01 -755 1.047129e+08 9.457651e-01 -756 1.056818e+08 9.486470e-01 -757 1.066596e+08 9.512836e-01 -758 1.076465e+08 9.536518e-01 -759 1.086426e+08 9.557288e-01 -760 1.096478e+08 9.574927e-01 -761 1.106624e+08 9.589223e-01 -762 1.116863e+08 9.599976e-01 -763 1.127197e+08 9.607005e-01 -764 1.137627e+08 9.610145e-01 -765 1.148154e+08 9.609252e-01 -766 1.158777e+08 9.604211e-01 -767 1.169499e+08 9.594929e-01 -768 1.180321e+08 9.581348e-01 -769 1.191242e+08 9.563438e-01 -770 1.202264e+08 9.541204e-01 -771 1.213389e+08 9.514684e-01 -772 1.224616e+08 9.483951e-01 -773 1.235947e+08 9.449112e-01 -774 1.247384e+08 9.410307e-01 -775 1.258925e+08 9.367709e-01 -776 1.270574e+08 9.321519e-01 -777 1.282331e+08 9.271967e-01 -778 1.294196e+08 9.219309e-01 -779 1.306171e+08 9.163819e-01 -780 1.318257e+08 9.105794e-01 -781 1.330454e+08 9.045542e-01 -782 1.342765e+08 8.983386e-01 -783 1.355189e+08 8.919656e-01 -784 1.367729e+08 8.854685e-01 -785 1.380384e+08 8.788811e-01 -786 1.393157e+08 8.722369e-01 -787 1.406048e+08 8.655691e-01 -788 1.419058e+08 8.589103e-01 -789 1.432188e+08 8.522924e-01 -790 1.445440e+08 8.457463e-01 -791 1.458814e+08 8.393018e-01 -792 1.472313e+08 8.329878e-01 -793 1.485936e+08 8.268318e-01 -794 1.499685e+08 8.208600e-01 -795 1.513561e+08 8.150976e-01 -796 1.527566e+08 8.095683e-01 -797 1.541700e+08 8.042949e-01 -798 1.555966e+08 7.992989e-01 -799 1.570363e+08 7.946006e-01 -800 1.584893e+08 7.902195e-01 -801 1.599558e+08 7.861740e-01 -802 1.614359e+08 7.824816e-01 -803 1.629296e+08 7.791591e-01 -804 1.644372e+08 7.762227e-01 -805 1.659587e+08 7.736875e-01 -806 1.674943e+08 7.715685e-01 -807 1.690441e+08 7.698797e-01 -808 1.706082e+08 7.686350e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -809 1.721869e+08 7.678474e-01 -810 1.737801e+08 7.675296e-01 -811 1.753881e+08 7.676936e-01 -812 1.770109e+08 7.683509e-01 -813 1.786488e+08 7.695121e-01 -814 1.803018e+08 7.711870e-01 -815 1.819701e+08 7.733842e-01 -816 1.836538e+08 7.761110e-01 -817 1.853532e+08 7.793730e-01 -818 1.870682e+08 7.831736e-01 -819 1.887991e+08 7.875136e-01 -820 1.905461e+08 7.923904e-01 -821 1.923092e+08 7.977976e-01 -822 1.940886e+08 8.037239e-01 -823 1.958845e+08 8.101521e-01 -824 1.976970e+08 8.170582e-01 -825 1.995262e+08 8.244101e-01 -826 2.013724e+08 8.321660e-01 -827 2.032357e+08 8.402737e-01 -828 2.051162e+08 8.486684e-01 -829 2.070141e+08 8.572721e-01 -830 2.089296e+08 8.659923e-01 -831 2.108628e+08 8.747214e-01 -832 2.128139e+08 8.833363e-01 -833 2.147830e+08 8.916993e-01 -834 2.167704e+08 8.996598e-01 -835 2.187762e+08 9.070565e-01 -836 2.208005e+08 9.137221e-01 -837 2.228435e+08 9.194884e-01 -838 2.249055e+08 9.241924e-01 -839 2.269865e+08 9.276847e-01 -840 2.290868e+08 9.298365e-01 -841 2.312065e+08 9.305478e-01 -842 2.333458e+08 9.297539e-01 -843 2.355049e+08 9.274304e-01 -844 2.376840e+08 9.235962e-01 -845 2.398833e+08 9.183134e-01 -846 2.421029e+08 9.116848e-01 -847 2.443431e+08 9.038490e-01 -848 2.466039e+08 8.949735e-01 -849 2.488857e+08 8.852468e-01 -850 2.511886e+08 8.748701e-01 -851 2.535129e+08 8.640494e-01 -852 2.558586e+08 8.529888e-01 -853 2.582260e+08 8.418841e-01 -854 2.606154e+08 8.309194e-01 -855 2.630268e+08 8.202638e-01 -856 2.654606e+08 8.100701e-01 -857 2.679168e+08 8.004743e-01 -858 2.703958e+08 7.915965e-01 -859 2.728978e+08 7.835413e-01 -860 2.754229e+08 7.764000e-01 -861 2.779713e+08 7.702515e-01 -862 2.805434e+08 7.651647e-01 -863 2.831392e+08 7.611993e-01 -864 2.857591e+08 7.584075e-01 -865 2.884032e+08 7.568349e-01 -866 2.910717e+08 7.565207e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -867 2.937650e+08 7.574982e-01 -868 2.964831e+08 7.597940e-01 -869 2.992265e+08 7.634265e-01 -870 3.019952e+08 7.684037e-01 -871 3.047895e+08 7.747202e-01 -872 3.076097e+08 7.823525e-01 -873 3.104560e+08 7.912533e-01 -874 3.133286e+08 8.013443e-01 -875 3.162278e+08 8.125076e-01 -876 3.191538e+08 8.245764e-01 -877 3.221069e+08 8.373251e-01 -878 3.250873e+08 8.504605e-01 -879 3.280953e+08 8.636169e-01 -880 3.311311e+08 8.763561e-01 -881 3.341950e+08 8.881770e-01 -882 3.372873e+08 8.985373e-01 -883 3.404082e+08 9.068885e-01 -884 3.435579e+08 9.127229e-01 -885 3.467369e+08 9.156278e-01 -886 3.499452e+08 9.153371e-01 -887 3.531832e+08 9.117708e-01 -888 3.564511e+08 9.050510e-01 -889 3.597493e+08 8.954917e-01 -890 3.630781e+08 8.835644e-01 -891 3.664376e+08 8.698462e-01 -892 3.698282e+08 8.549644e-01 -893 3.732502e+08 8.395450e-01 -894 3.767038e+08 8.241733e-01 -895 3.801894e+08 8.093695e-01 -896 3.837072e+08 7.955773e-01 -897 3.872576e+08 7.831631e-01 -898 3.908409e+08 7.724221e-01 -899 3.944573e+08 7.635885e-01 -900 3.981072e+08 7.568462e-01 -901 4.017908e+08 7.523388e-01 -902 4.055085e+08 7.501776e-01 -903 4.092607e+08 7.504465e-01 -904 4.130475e+08 7.532026e-01 -905 4.168694e+08 7.584729e-01 -906 4.207266e+08 7.662445e-01 -907 4.246196e+08 7.764495e-01 -908 4.285485e+08 7.889408e-01 -909 4.325138e+08 8.034620e-01 -910 4.365158e+08 8.196093e-01 -911 4.405549e+08 8.367940e-01 -912 4.446313e+08 8.542125e-01 -913 4.487454e+08 8.708422e-01 -914 4.528976e+08 8.854842e-01 -915 4.570882e+08 8.968701e-01 -916 4.613176e+08 9.038359e-01 -917 4.655861e+08 9.055332e-01 -918 4.698941e+08 9.016163e-01 -919 4.742420e+08 8.923370e-01 -920 4.786301e+08 8.785044e-01 -921 4.830588e+08 8.613273e-01 -922 4.875285e+08 8.421994e-01 -923 4.920395e+08 8.224992e-01 -924 4.965923e+08 8.034510e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -925 5.011872e+08 7.860580e-01 -926 5.058247e+08 7.710935e-01 -927 5.105050e+08 7.591279e-01 -928 5.152286e+08 7.505686e-01 -929 5.199960e+08 7.457006e-01 -930 5.248075e+08 7.447153e-01 -931 5.296634e+08 7.477264e-01 -932 5.345644e+08 7.547652e-01 -933 5.395106e+08 7.657541e-01 -934 5.445027e+08 7.804534e-01 -935 5.495409e+08 7.983794e-01 -936 5.546257e+08 8.186989e-01 -937 5.597576e+08 8.401221e-01 -938 5.649370e+08 8.608459e-01 -939 5.701643e+08 8.786289e-01 -940 5.754399e+08 8.910837e-01 -941 5.807644e+08 8.961921e-01 -942 5.861382e+08 8.928962e-01 -943 5.915616e+08 8.814774e-01 -944 5.970353e+08 8.635014e-01 -945 6.025596e+08 8.413562e-01 -946 6.081350e+08 8.176455e-01 -947 6.137620e+08 7.947100e-01 -948 6.194411e+08 7.743919e-01 -949 6.251727e+08 7.580095e-01 -950 6.309573e+08 7.464430e-01 -951 6.367955e+08 7.402506e-01 -952 6.426877e+08 7.397614e-01 -953 6.486344e+08 7.451214e-01 -954 6.546362e+08 7.562770e-01 -955 6.606934e+08 7.728836e-01 -956 6.668068e+08 7.941322e-01 -957 6.729767e+08 8.185066e-01 -958 6.792036e+08 8.435490e-01 -959 6.854882e+08 8.658240e-01 -960 6.918310e+08 8.813611e-01 -961 6.982324e+08 8.867249e-01 -962 7.046931e+08 8.803613e-01 -963 7.112135e+08 8.633634e-01 -964 7.177943e+08 8.390452e-01 -965 7.244360e+08 8.116578e-01 -966 7.311391e+08 7.851448e-01 -967 7.379042e+08 7.625028e-01 -968 7.447320e+08 7.457170e-01 -969 7.516229e+08 7.359791e-01 -970 7.585776e+08 7.339382e-01 -971 7.655966e+08 7.398544e-01 -972 7.726806e+08 7.535975e-01 -973 7.798301e+08 7.744573e-01 -974 7.870458e+08 8.007546e-01 -975 7.943282e+08 8.293387e-01 -976 8.016781e+08 8.553152e-01 -977 8.090959e+08 8.726747e-01 -978 8.165824e+08 8.763213e-01 -979 8.241381e+08 8.646850e-01 -980 8.317638e+08 8.407600e-01 -981 8.394600e+08 8.105109e-01 -982 8.472274e+08 7.801916e-01 - -Index frequency mag(v(14)-v(15) --------------------------------------------------------------------------------- -983 8.550667e+08 7.546121e-01 -984 8.629785e+08 7.368057e-01 -985 8.709636e+08 7.284310e-01 -986 8.790225e+08 7.302470e-01 -987 8.871560e+08 7.423333e-01 -988 8.953648e+08 7.639280e-01 -989 9.036495e+08 7.928342e-01 -990 9.120108e+08 8.245372e-01 -991 9.204496e+08 8.517587e-01 -992 9.289664e+08 8.659451e-01 -993 9.375620e+08 8.614075e-01 -994 9.462372e+08 8.392665e-01 -995 9.549926e+08 8.068360e-01 -996 9.638290e+08 7.731507e-01 -997 9.727472e+08 7.452909e-01 -998 9.817479e+08 7.274982e-01 -999 9.908319e+08 7.218632e-01 -1000 1.000000e+09 7.291074e-01 - -CPU time since last call: 0.055 seconds. - -Total CPU time: 0.055 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4864.039062 MB. -Total ngspice program size = 7.100586 MB. -Resident set size = 802.000 kB. -Shared ngspice pages = 527.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 350.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec deleted file mode 100644 index ef2c584..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.bundle_spec +++ /dev/null @@ -1,9 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -STP_RS422_AWG_26_ESCC_3902002_V24 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec deleted file mode 100644 index ec136ab..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane.spice_model_spec +++ /dev/null @@ -1,45 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -STP_RS422_AWG_26_ESCC_3902002_V24_ground_plane -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model -1.0 End 1 voltage source list --1.0 -0.0 -0.0 -60.0 End 1 impedance list -60.0 -0.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -0.0 -60.0 End 2 impedance list -60.0 -0.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -dB # output type (lin or dB) -2 ! order of vector fit model -log # frequency scale (log or lin) -1e5 1e9 200 # fmin fmax number_of_frequencies - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/analytic_solution.dat_reference deleted file mode 100644 index 0cd0dd0..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 -1.1650337346126758E-002 - 100926.21909870484 -1.1653066046195214E-002 - 101861.01701559752 -1.1655844454472456E-002 - 102804.47320933097 -1.1658673456438753E-002 - 103756.66787451849 -1.1661553952589908E-002 - 104717.68194855202 -1.1664486858704822E-002 - 105687.59711848051 -1.1667473106031924E-002 - 106666.49582795388 -1.1670513641551907E-002 - 107654.46128423158 -1.1673609428193159E-002 - 108651.57746525372 -1.1676761445087735E-002 - 109657.92912678099 -1.1679970687788704E-002 - 110673.60180959746 -1.1683238168534844E-002 - 111698.68184678226 -1.1686564916478617E-002 - 112733.25637104872 -1.1689951977937334E-002 - 113777.41332214902 -1.1693400416630808E-002 - 114831.24145435111 -1.1696911313963413E-002 - 115894.83034398119 -1.1700485769233762E-002 - 116968.27039703846 -1.1704124899931242E-002 - 118051.65285688055 -1.1707829841958253E-002 - 119145.06981197748 -1.1711601749909378E-002 - 120248.61420374122 -1.1715441797326457E-002 - 121362.37983442418 -1.1719351176960383E-002 - 122486.46137509307 -1.1723331101025221E-002 - 123620.95437367691 -1.1727382801500576E-002 - 124765.95526308684 -1.1731507530339365E-002 - 125921.56136941510 -1.1735706559797224E-002 - 127087.87092020595 -1.1739981182661549E-002 - 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b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/result_comparison.dat_reference deleted file mode 100644 index 561eb63..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.01130488 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/spice_solution.dat_reference deleted file mode 100644 index ab3c78d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24/spice_solution.dat_reference +++ /dev/null @@ -1,1099 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d3_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c3_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_4: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_4: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:02:19 2018 --------------------------------------------------------------------------------- -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -0 1.000000e+05 -1.14992e-02 -1 1.009253e+05 -1.14992e-02 -2 1.018591e+05 -1.14992e-02 -3 1.028016e+05 -1.14992e-02 -4 1.037528e+05 -1.14992e-02 -5 1.047129e+05 -1.14992e-02 -6 1.056818e+05 -1.14992e-02 -7 1.066596e+05 -1.14992e-02 -8 1.076465e+05 -1.14992e-02 -9 1.086426e+05 -1.14992e-02 -10 1.096478e+05 -1.14992e-02 -11 1.106624e+05 -1.14992e-02 -12 1.116863e+05 -1.14992e-02 -13 1.127197e+05 -1.14992e-02 -14 1.137627e+05 -1.14992e-02 -15 1.148154e+05 -1.14992e-02 -16 1.158777e+05 -1.14992e-02 -17 1.169499e+05 -1.14992e-02 -18 1.180321e+05 -1.14992e-02 -19 1.191242e+05 -1.14993e-02 -20 1.202264e+05 -1.14993e-02 -21 1.213389e+05 -1.14993e-02 -22 1.224616e+05 -1.14993e-02 -23 1.235947e+05 -1.14993e-02 -24 1.247384e+05 -1.14993e-02 -25 1.258925e+05 -1.14993e-02 -26 1.270574e+05 -1.14993e-02 -27 1.282331e+05 -1.14993e-02 -28 1.294196e+05 -1.14993e-02 -29 1.306171e+05 -1.14993e-02 -30 1.318257e+05 -1.14993e-02 -31 1.330454e+05 -1.14993e-02 -32 1.342765e+05 -1.14993e-02 -33 1.355189e+05 -1.14993e-02 -34 1.367729e+05 -1.14993e-02 -35 1.380384e+05 -1.14993e-02 -36 1.393157e+05 -1.14994e-02 -37 1.406048e+05 -1.14994e-02 -38 1.419058e+05 -1.14994e-02 -39 1.432188e+05 -1.14994e-02 -40 1.445440e+05 -1.14994e-02 -41 1.458814e+05 -1.14994e-02 -42 1.472313e+05 -1.14994e-02 -43 1.485936e+05 -1.14994e-02 -44 1.499685e+05 -1.14994e-02 -45 1.513561e+05 -1.14994e-02 -46 1.527566e+05 -1.14994e-02 -47 1.541700e+05 -1.14994e-02 -48 1.555966e+05 -1.14994e-02 -49 1.570363e+05 -1.14995e-02 -50 1.584893e+05 -1.14995e-02 -51 1.599558e+05 -1.14995e-02 -52 1.614359e+05 -1.14995e-02 -53 1.629296e+05 -1.14995e-02 -54 1.644372e+05 -1.14995e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -55 1.659587e+05 -1.14995e-02 -56 1.674943e+05 -1.14995e-02 -57 1.690441e+05 -1.14995e-02 -58 1.706082e+05 -1.14995e-02 -59 1.721869e+05 -1.14995e-02 -60 1.737801e+05 -1.14996e-02 -61 1.753881e+05 -1.14996e-02 -62 1.770109e+05 -1.14996e-02 -63 1.786488e+05 -1.14996e-02 -64 1.803018e+05 -1.14996e-02 -65 1.819701e+05 -1.14996e-02 -66 1.836538e+05 -1.14996e-02 -67 1.853532e+05 -1.14996e-02 -68 1.870682e+05 -1.14997e-02 -69 1.887991e+05 -1.14997e-02 -70 1.905461e+05 -1.14997e-02 -71 1.923092e+05 -1.14997e-02 -72 1.940886e+05 -1.14997e-02 -73 1.958845e+05 -1.14997e-02 -74 1.976970e+05 -1.14997e-02 -75 1.995262e+05 -1.14997e-02 -76 2.013724e+05 -1.14998e-02 -77 2.032357e+05 -1.14998e-02 -78 2.051162e+05 -1.14998e-02 -79 2.070141e+05 -1.14998e-02 -80 2.089296e+05 -1.14998e-02 -81 2.108628e+05 -1.14998e-02 -82 2.128139e+05 -1.14999e-02 -83 2.147830e+05 -1.14999e-02 -84 2.167704e+05 -1.14999e-02 -85 2.187762e+05 -1.14999e-02 -86 2.208005e+05 -1.14999e-02 -87 2.228435e+05 -1.14999e-02 -88 2.249055e+05 -1.15000e-02 -89 2.269865e+05 -1.15000e-02 -90 2.290868e+05 -1.15000e-02 -91 2.312065e+05 -1.15000e-02 -92 2.333458e+05 -1.15000e-02 -93 2.355049e+05 -1.15000e-02 -94 2.376840e+05 -1.15001e-02 -95 2.398833e+05 -1.15001e-02 -96 2.421029e+05 -1.15001e-02 -97 2.443431e+05 -1.15001e-02 -98 2.466039e+05 -1.15002e-02 -99 2.488857e+05 -1.15002e-02 -100 2.511886e+05 -1.15002e-02 -101 2.535129e+05 -1.15002e-02 -102 2.558586e+05 -1.15002e-02 -103 2.582260e+05 -1.15003e-02 -104 2.606154e+05 -1.15003e-02 -105 2.630268e+05 -1.15003e-02 -106 2.654606e+05 -1.15003e-02 -107 2.679168e+05 -1.15004e-02 -108 2.703958e+05 -1.15004e-02 -109 2.728978e+05 -1.15004e-02 -110 2.754229e+05 -1.15004e-02 -111 2.779713e+05 -1.15005e-02 -112 2.805434e+05 -1.15005e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -113 2.831392e+05 -1.15005e-02 -114 2.857591e+05 -1.15006e-02 -115 2.884032e+05 -1.15006e-02 -116 2.910717e+05 -1.15006e-02 -117 2.937650e+05 -1.15006e-02 -118 2.964831e+05 -1.15007e-02 -119 2.992265e+05 -1.15007e-02 -120 3.019952e+05 -1.15007e-02 -121 3.047895e+05 -1.15008e-02 -122 3.076097e+05 -1.15008e-02 -123 3.104560e+05 -1.15008e-02 -124 3.133286e+05 -1.15009e-02 -125 3.162278e+05 -1.15009e-02 -126 3.191538e+05 -1.15009e-02 -127 3.221069e+05 -1.15010e-02 -128 3.250873e+05 -1.15010e-02 -129 3.280953e+05 -1.15011e-02 -130 3.311311e+05 -1.15011e-02 -131 3.341950e+05 -1.15011e-02 -132 3.372873e+05 -1.15012e-02 -133 3.404082e+05 -1.15012e-02 -134 3.435579e+05 -1.15013e-02 -135 3.467369e+05 -1.15013e-02 -136 3.499452e+05 -1.15013e-02 -137 3.531832e+05 -1.15014e-02 -138 3.564511e+05 -1.15014e-02 -139 3.597493e+05 -1.15015e-02 -140 3.630781e+05 -1.15015e-02 -141 3.664376e+05 -1.15016e-02 -142 3.698282e+05 -1.15016e-02 -143 3.732502e+05 -1.15017e-02 -144 3.767038e+05 -1.15017e-02 -145 3.801894e+05 -1.15018e-02 -146 3.837072e+05 -1.15018e-02 -147 3.872576e+05 -1.15019e-02 -148 3.908409e+05 -1.15019e-02 -149 3.944573e+05 -1.15020e-02 -150 3.981072e+05 -1.15020e-02 -151 4.017908e+05 -1.15021e-02 -152 4.055085e+05 -1.15021e-02 -153 4.092607e+05 -1.15022e-02 -154 4.130475e+05 -1.15023e-02 -155 4.168694e+05 -1.15023e-02 -156 4.207266e+05 -1.15024e-02 -157 4.246196e+05 -1.15025e-02 -158 4.285485e+05 -1.15025e-02 -159 4.325138e+05 -1.15026e-02 -160 4.365158e+05 -1.15027e-02 -161 4.405549e+05 -1.15027e-02 -162 4.446313e+05 -1.15028e-02 -163 4.487454e+05 -1.15029e-02 -164 4.528976e+05 -1.15029e-02 -165 4.570882e+05 -1.15030e-02 -166 4.613176e+05 -1.15031e-02 -167 4.655861e+05 -1.15032e-02 -168 4.698941e+05 -1.15032e-02 -169 4.742420e+05 -1.15033e-02 -170 4.786301e+05 -1.15034e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -171 4.830588e+05 -1.15035e-02 -172 4.875285e+05 -1.15036e-02 -173 4.920395e+05 -1.15036e-02 -174 4.965923e+05 -1.15037e-02 -175 5.011872e+05 -1.15038e-02 -176 5.058247e+05 -1.15039e-02 -177 5.105050e+05 -1.15040e-02 -178 5.152286e+05 -1.15041e-02 -179 5.199960e+05 -1.15042e-02 -180 5.248075e+05 -1.15043e-02 -181 5.296634e+05 -1.15044e-02 -182 5.345644e+05 -1.15045e-02 -183 5.395106e+05 -1.15046e-02 -184 5.445027e+05 -1.15047e-02 -185 5.495409e+05 -1.15048e-02 -186 5.546257e+05 -1.15049e-02 -187 5.597576e+05 -1.15050e-02 -188 5.649370e+05 -1.15051e-02 -189 5.701643e+05 -1.15052e-02 -190 5.754399e+05 -1.15054e-02 -191 5.807644e+05 -1.15055e-02 -192 5.861382e+05 -1.15056e-02 -193 5.915616e+05 -1.15057e-02 -194 5.970353e+05 -1.15058e-02 -195 6.025596e+05 -1.15060e-02 -196 6.081350e+05 -1.15061e-02 -197 6.137620e+05 -1.15062e-02 -198 6.194411e+05 -1.15064e-02 -199 6.251727e+05 -1.15065e-02 -200 6.309573e+05 -1.15067e-02 -201 6.367955e+05 -1.15068e-02 -202 6.426877e+05 -1.15069e-02 -203 6.486344e+05 -1.15071e-02 -204 6.546362e+05 -1.15072e-02 -205 6.606934e+05 -1.15074e-02 -206 6.668068e+05 -1.15075e-02 -207 6.729767e+05 -1.15077e-02 -208 6.792036e+05 -1.15079e-02 -209 6.854882e+05 -1.15080e-02 -210 6.918310e+05 -1.15082e-02 -211 6.982324e+05 -1.15084e-02 -212 7.046931e+05 -1.15086e-02 -213 7.112135e+05 -1.15087e-02 -214 7.177943e+05 -1.15089e-02 -215 7.244360e+05 -1.15091e-02 -216 7.311391e+05 -1.15093e-02 -217 7.379042e+05 -1.15095e-02 -218 7.447320e+05 -1.15097e-02 -219 7.516229e+05 -1.15099e-02 -220 7.585776e+05 -1.15101e-02 -221 7.655966e+05 -1.15103e-02 -222 7.726806e+05 -1.15105e-02 -223 7.798301e+05 -1.15107e-02 -224 7.870458e+05 -1.15109e-02 -225 7.943282e+05 -1.15111e-02 -226 8.016781e+05 -1.15114e-02 -227 8.090959e+05 -1.15116e-02 -228 8.165824e+05 -1.15118e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -229 8.241381e+05 -1.15121e-02 -230 8.317638e+05 -1.15123e-02 -231 8.394600e+05 -1.15126e-02 -232 8.472274e+05 -1.15128e-02 -233 8.550667e+05 -1.15131e-02 -234 8.629785e+05 -1.15133e-02 -235 8.709636e+05 -1.15136e-02 -236 8.790225e+05 -1.15139e-02 -237 8.871560e+05 -1.15141e-02 -238 8.953648e+05 -1.15144e-02 -239 9.036495e+05 -1.15147e-02 -240 9.120108e+05 -1.15150e-02 -241 9.204496e+05 -1.15153e-02 -242 9.289664e+05 -1.15156e-02 -243 9.375620e+05 -1.15159e-02 -244 9.462372e+05 -1.15162e-02 -245 9.549926e+05 -1.15166e-02 -246 9.638290e+05 -1.15169e-02 -247 9.727472e+05 -1.15172e-02 -248 9.817479e+05 -1.15176e-02 -249 9.908319e+05 -1.15179e-02 -250 1.000000e+06 -1.15183e-02 -251 1.009253e+06 -1.15186e-02 -252 1.018591e+06 -1.15190e-02 -253 1.028016e+06 -1.15193e-02 -254 1.037528e+06 -1.15197e-02 -255 1.047129e+06 -1.15201e-02 -256 1.056818e+06 -1.15205e-02 -257 1.066596e+06 -1.15209e-02 -258 1.076465e+06 -1.15213e-02 -259 1.086426e+06 -1.15217e-02 -260 1.096478e+06 -1.15222e-02 -261 1.106624e+06 -1.15226e-02 -262 1.116863e+06 -1.15230e-02 -263 1.127197e+06 -1.15235e-02 -264 1.137627e+06 -1.15239e-02 -265 1.148154e+06 -1.15244e-02 -266 1.158777e+06 -1.15249e-02 -267 1.169499e+06 -1.15253e-02 -268 1.180321e+06 -1.15258e-02 -269 1.191242e+06 -1.15263e-02 -270 1.202264e+06 -1.15268e-02 -271 1.213389e+06 -1.15274e-02 -272 1.224616e+06 -1.15279e-02 -273 1.235947e+06 -1.15284e-02 -274 1.247384e+06 -1.15290e-02 -275 1.258925e+06 -1.15295e-02 -276 1.270574e+06 -1.15301e-02 -277 1.282331e+06 -1.15307e-02 -278 1.294196e+06 -1.15313e-02 -279 1.306171e+06 -1.15319e-02 -280 1.318257e+06 -1.15325e-02 -281 1.330454e+06 -1.15331e-02 -282 1.342765e+06 -1.15337e-02 -283 1.355189e+06 -1.15344e-02 -284 1.367729e+06 -1.15350e-02 -285 1.380384e+06 -1.15357e-02 -286 1.393157e+06 -1.15364e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -287 1.406048e+06 -1.15371e-02 -288 1.419058e+06 -1.15378e-02 -289 1.432188e+06 -1.15385e-02 -290 1.445440e+06 -1.15392e-02 -291 1.458814e+06 -1.15400e-02 -292 1.472313e+06 -1.15408e-02 -293 1.485936e+06 -1.15415e-02 -294 1.499685e+06 -1.15423e-02 -295 1.513561e+06 -1.15431e-02 -296 1.527566e+06 -1.15440e-02 -297 1.541700e+06 -1.15448e-02 -298 1.555966e+06 -1.15456e-02 -299 1.570363e+06 -1.15465e-02 -300 1.584893e+06 -1.15474e-02 -301 1.599558e+06 -1.15483e-02 -302 1.614359e+06 -1.15492e-02 -303 1.629296e+06 -1.15501e-02 -304 1.644372e+06 -1.15511e-02 -305 1.659587e+06 -1.15521e-02 -306 1.674943e+06 -1.15530e-02 -307 1.690441e+06 -1.15541e-02 -308 1.706082e+06 -1.15551e-02 -309 1.721869e+06 -1.15561e-02 -310 1.737801e+06 -1.15572e-02 -311 1.753881e+06 -1.15583e-02 -312 1.770109e+06 -1.15594e-02 -313 1.786488e+06 -1.15605e-02 -314 1.803018e+06 -1.15616e-02 -315 1.819701e+06 -1.15628e-02 -316 1.836538e+06 -1.15640e-02 -317 1.853532e+06 -1.15652e-02 -318 1.870682e+06 -1.15664e-02 -319 1.887991e+06 -1.15677e-02 -320 1.905461e+06 -1.15690e-02 -321 1.923092e+06 -1.15703e-02 -322 1.940886e+06 -1.15716e-02 -323 1.958845e+06 -1.15729e-02 -324 1.976970e+06 -1.15743e-02 -325 1.995262e+06 -1.15757e-02 -326 2.013724e+06 -1.15771e-02 -327 2.032357e+06 -1.15786e-02 -328 2.051162e+06 -1.15801e-02 -329 2.070141e+06 -1.15816e-02 -330 2.089296e+06 -1.15831e-02 -331 2.108628e+06 -1.15847e-02 -332 2.128139e+06 -1.15863e-02 -333 2.147830e+06 -1.15879e-02 -334 2.167704e+06 -1.15895e-02 -335 2.187762e+06 -1.15912e-02 -336 2.208005e+06 -1.15929e-02 -337 2.228435e+06 -1.15947e-02 -338 2.249055e+06 -1.15965e-02 -339 2.269865e+06 -1.15983e-02 -340 2.290868e+06 -1.16001e-02 -341 2.312065e+06 -1.16020e-02 -342 2.333458e+06 -1.16039e-02 -343 2.355049e+06 -1.16059e-02 -344 2.376840e+06 -1.16078e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -345 2.398833e+06 -1.16099e-02 -346 2.421029e+06 -1.16119e-02 -347 2.443431e+06 -1.16140e-02 -348 2.466039e+06 -1.16162e-02 -349 2.488857e+06 -1.16183e-02 -350 2.511886e+06 -1.16206e-02 -351 2.535129e+06 -1.16228e-02 -352 2.558586e+06 -1.16251e-02 -353 2.582260e+06 -1.16275e-02 -354 2.606154e+06 -1.16298e-02 -355 2.630268e+06 -1.16323e-02 -356 2.654606e+06 -1.16348e-02 -357 2.679168e+06 -1.16373e-02 -358 2.703958e+06 -1.16398e-02 -359 2.728978e+06 -1.16425e-02 -360 2.754229e+06 -1.16451e-02 -361 2.779713e+06 -1.16478e-02 -362 2.805434e+06 -1.16506e-02 -363 2.831392e+06 -1.16534e-02 -364 2.857591e+06 -1.16563e-02 -365 2.884032e+06 -1.16592e-02 -366 2.910717e+06 -1.16622e-02 -367 2.937650e+06 -1.16652e-02 -368 2.964831e+06 -1.16683e-02 -369 2.992265e+06 -1.16715e-02 -370 3.019952e+06 -1.16747e-02 -371 3.047895e+06 -1.16779e-02 -372 3.076097e+06 -1.16813e-02 -373 3.104560e+06 -1.16847e-02 -374 3.133286e+06 -1.16881e-02 -375 3.162278e+06 -1.16916e-02 -376 3.191538e+06 -1.16952e-02 -377 3.221069e+06 -1.16988e-02 -378 3.250873e+06 -1.17026e-02 -379 3.280953e+06 -1.17063e-02 -380 3.311311e+06 -1.17102e-02 -381 3.341950e+06 -1.17141e-02 -382 3.372873e+06 -1.17181e-02 -383 3.404082e+06 -1.17222e-02 -384 3.435579e+06 -1.17263e-02 -385 3.467369e+06 -1.17305e-02 -386 3.499452e+06 -1.17348e-02 -387 3.531832e+06 -1.17392e-02 -388 3.564511e+06 -1.17437e-02 -389 3.597493e+06 -1.17482e-02 -390 3.630781e+06 -1.17529e-02 -391 3.664376e+06 -1.17576e-02 -392 3.698282e+06 -1.17624e-02 -393 3.732502e+06 -1.17673e-02 -394 3.767038e+06 -1.17723e-02 -395 3.801894e+06 -1.17773e-02 -396 3.837072e+06 -1.17825e-02 -397 3.872576e+06 -1.17878e-02 -398 3.908409e+06 -1.17931e-02 -399 3.944573e+06 -1.17986e-02 -400 3.981072e+06 -1.18042e-02 -401 4.017908e+06 -1.18098e-02 -402 4.055085e+06 -1.18156e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -403 4.092607e+06 -1.18215e-02 -404 4.130475e+06 -1.18275e-02 -405 4.168694e+06 -1.18336e-02 -406 4.207266e+06 -1.18398e-02 -407 4.246196e+06 -1.18461e-02 -408 4.285485e+06 -1.18526e-02 -409 4.325138e+06 -1.18591e-02 -410 4.365158e+06 -1.18658e-02 -411 4.405549e+06 -1.18726e-02 -412 4.446313e+06 -1.18796e-02 -413 4.487454e+06 -1.18866e-02 -414 4.528976e+06 -1.18938e-02 -415 4.570882e+06 -1.19012e-02 -416 4.613176e+06 -1.19086e-02 -417 4.655861e+06 -1.19162e-02 -418 4.698941e+06 -1.19240e-02 -419 4.742420e+06 -1.19319e-02 -420 4.786301e+06 -1.19399e-02 -421 4.830588e+06 -1.19481e-02 -422 4.875285e+06 -1.19564e-02 -423 4.920395e+06 -1.19649e-02 -424 4.965923e+06 -1.19736e-02 -425 5.011872e+06 -1.19824e-02 -426 5.058247e+06 -1.19913e-02 -427 5.105050e+06 -1.20005e-02 -428 5.152286e+06 -1.20098e-02 -429 5.199960e+06 -1.20193e-02 -430 5.248075e+06 -1.20289e-02 -431 5.296634e+06 -1.20387e-02 -432 5.345644e+06 -1.20488e-02 -433 5.395106e+06 -1.20590e-02 -434 5.445027e+06 -1.20694e-02 -435 5.495409e+06 -1.20799e-02 -436 5.546257e+06 -1.20907e-02 -437 5.597576e+06 -1.21017e-02 -438 5.649370e+06 -1.21129e-02 -439 5.701643e+06 -1.21243e-02 -440 5.754399e+06 -1.21359e-02 -441 5.807644e+06 -1.21477e-02 -442 5.861382e+06 -1.21597e-02 -443 5.915616e+06 -1.21720e-02 -444 5.970353e+06 -1.21844e-02 -445 6.025596e+06 -1.21972e-02 -446 6.081350e+06 -1.22101e-02 -447 6.137620e+06 -1.22233e-02 -448 6.194411e+06 -1.22367e-02 -449 6.251727e+06 -1.22504e-02 -450 6.309573e+06 -1.22643e-02 -451 6.367955e+06 -1.22785e-02 -452 6.426877e+06 -1.22930e-02 -453 6.486344e+06 -1.23077e-02 -454 6.546362e+06 -1.23227e-02 -455 6.606934e+06 -1.23380e-02 -456 6.668068e+06 -1.23535e-02 -457 6.729767e+06 -1.23693e-02 -458 6.792036e+06 -1.23855e-02 -459 6.854882e+06 -1.24019e-02 -460 6.918310e+06 -1.24186e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -461 6.982324e+06 -1.24357e-02 -462 7.046931e+06 -1.24530e-02 -463 7.112135e+06 -1.24707e-02 -464 7.177943e+06 -1.24887e-02 -465 7.244360e+06 -1.25071e-02 -466 7.311391e+06 -1.25257e-02 -467 7.379042e+06 -1.25447e-02 -468 7.447320e+06 -1.25641e-02 -469 7.516229e+06 -1.25838e-02 -470 7.585776e+06 -1.26039e-02 -471 7.655966e+06 -1.26244e-02 -472 7.726806e+06 -1.26452e-02 -473 7.798301e+06 -1.26665e-02 -474 7.870458e+06 -1.26881e-02 -475 7.943282e+06 -1.27101e-02 -476 8.016781e+06 -1.27325e-02 -477 8.090959e+06 -1.27553e-02 -478 8.165824e+06 -1.27786e-02 -479 8.241381e+06 -1.28023e-02 -480 8.317638e+06 -1.28264e-02 -481 8.394600e+06 -1.28509e-02 -482 8.472274e+06 -1.28760e-02 -483 8.550667e+06 -1.29014e-02 -484 8.629785e+06 -1.29274e-02 -485 8.709636e+06 -1.29538e-02 -486 8.790225e+06 -1.29807e-02 -487 8.871560e+06 -1.30081e-02 -488 8.953648e+06 -1.30360e-02 -489 9.036495e+06 -1.30644e-02 -490 9.120108e+06 -1.30934e-02 -491 9.204496e+06 -1.31228e-02 -492 9.289664e+06 -1.31528e-02 -493 9.375620e+06 -1.31834e-02 -494 9.462372e+06 -1.32145e-02 -495 9.549926e+06 -1.32462e-02 -496 9.638290e+06 -1.32785e-02 -497 9.727472e+06 -1.33114e-02 -498 9.817479e+06 -1.33449e-02 -499 9.908319e+06 -1.33790e-02 -500 1.000000e+07 -1.34137e-02 -501 1.009253e+07 -1.34490e-02 -502 1.018591e+07 -1.34850e-02 -503 1.028016e+07 -1.35217e-02 -504 1.037528e+07 -1.35590e-02 -505 1.047129e+07 -1.35970e-02 -506 1.056818e+07 -1.36357e-02 -507 1.066596e+07 -1.36752e-02 -508 1.076465e+07 -1.37153e-02 -509 1.086426e+07 -1.37562e-02 -510 1.096478e+07 -1.37978e-02 -511 1.106624e+07 -1.38402e-02 -512 1.116863e+07 -1.38834e-02 -513 1.127197e+07 -1.39273e-02 -514 1.137627e+07 -1.39721e-02 -515 1.148154e+07 -1.40176e-02 -516 1.158777e+07 -1.40640e-02 -517 1.169499e+07 -1.41113e-02 -518 1.180321e+07 -1.41594e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -519 1.191242e+07 -1.42084e-02 -520 1.202264e+07 -1.42583e-02 -521 1.213389e+07 -1.43091e-02 -522 1.224616e+07 -1.43608e-02 -523 1.235947e+07 -1.44134e-02 -524 1.247384e+07 -1.44670e-02 -525 1.258925e+07 -1.45216e-02 -526 1.270574e+07 -1.45772e-02 -527 1.282331e+07 -1.46338e-02 -528 1.294196e+07 -1.46914e-02 -529 1.306171e+07 -1.47501e-02 -530 1.318257e+07 -1.48099e-02 -531 1.330454e+07 -1.48707e-02 -532 1.342765e+07 -1.49326e-02 -533 1.355189e+07 -1.49956e-02 -534 1.367729e+07 -1.50598e-02 -535 1.380384e+07 -1.51252e-02 -536 1.393157e+07 -1.51917e-02 -537 1.406048e+07 -1.52595e-02 -538 1.419058e+07 -1.53284e-02 -539 1.432188e+07 -1.53987e-02 -540 1.445440e+07 -1.54701e-02 -541 1.458814e+07 -1.55429e-02 -542 1.472313e+07 -1.56170e-02 -543 1.485936e+07 -1.56924e-02 -544 1.499685e+07 -1.57692e-02 -545 1.513561e+07 -1.58474e-02 -546 1.527566e+07 -1.59270e-02 -547 1.541700e+07 -1.60080e-02 -548 1.555966e+07 -1.60905e-02 -549 1.570363e+07 -1.61744e-02 -550 1.584893e+07 -1.62599e-02 -551 1.599558e+07 -1.63469e-02 -552 1.614359e+07 -1.64354e-02 -553 1.629296e+07 -1.65256e-02 -554 1.644372e+07 -1.66174e-02 -555 1.659587e+07 -1.67108e-02 -556 1.674943e+07 -1.68058e-02 -557 1.690441e+07 -1.69026e-02 -558 1.706082e+07 -1.70011e-02 -559 1.721869e+07 -1.71014e-02 -560 1.737801e+07 -1.72035e-02 -561 1.753881e+07 -1.73073e-02 -562 1.770109e+07 -1.74131e-02 -563 1.786488e+07 -1.75207e-02 -564 1.803018e+07 -1.76302e-02 -565 1.819701e+07 -1.77417e-02 -566 1.836538e+07 -1.78551e-02 -567 1.853532e+07 -1.79706e-02 -568 1.870682e+07 -1.80881e-02 -569 1.887991e+07 -1.82077e-02 -570 1.905461e+07 -1.83294e-02 -571 1.923092e+07 -1.84533e-02 -572 1.940886e+07 -1.85794e-02 -573 1.958845e+07 -1.87077e-02 -574 1.976970e+07 -1.88382e-02 -575 1.995262e+07 -1.89710e-02 -576 2.013724e+07 -1.91062e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -577 2.032357e+07 -1.92438e-02 -578 2.051162e+07 -1.93838e-02 -579 2.070141e+07 -1.95262e-02 -580 2.089296e+07 -1.96711e-02 -581 2.108628e+07 -1.98186e-02 -582 2.128139e+07 -1.99686e-02 -583 2.147830e+07 -2.01213e-02 -584 2.167704e+07 -2.02766e-02 -585 2.187762e+07 -2.04346e-02 -586 2.208005e+07 -2.05954e-02 -587 2.228435e+07 -2.07590e-02 -588 2.249055e+07 -2.09254e-02 -589 2.269865e+07 -2.10947e-02 -590 2.290868e+07 -2.12669e-02 -591 2.312065e+07 -2.14422e-02 -592 2.333458e+07 -2.16204e-02 -593 2.355049e+07 -2.18017e-02 -594 2.376840e+07 -2.19861e-02 -595 2.398833e+07 -2.21737e-02 -596 2.421029e+07 -2.23646e-02 -597 2.443431e+07 -2.25587e-02 -598 2.466039e+07 -2.27561e-02 -599 2.488857e+07 -2.29569e-02 -600 2.511886e+07 -2.31611e-02 -601 2.535129e+07 -2.33688e-02 -602 2.558586e+07 -2.35800e-02 -603 2.582260e+07 -2.37948e-02 -604 2.606154e+07 -2.40133e-02 -605 2.630268e+07 -2.42355e-02 -606 2.654606e+07 -2.44614e-02 -607 2.679168e+07 -2.46911e-02 -608 2.703958e+07 -2.49247e-02 -609 2.728978e+07 -2.51622e-02 -610 2.754229e+07 -2.54037e-02 -611 2.779713e+07 -2.56492e-02 -612 2.805434e+07 -2.58989e-02 -613 2.831392e+07 -2.61527e-02 -614 2.857591e+07 -2.64107e-02 -615 2.884032e+07 -2.66730e-02 -616 2.910717e+07 -2.69396e-02 -617 2.937650e+07 -2.72107e-02 -618 2.964831e+07 -2.74862e-02 -619 2.992265e+07 -2.77663e-02 -620 3.019952e+07 -2.80509e-02 -621 3.047895e+07 -2.83402e-02 -622 3.076097e+07 -2.86343e-02 -623 3.104560e+07 -2.89331e-02 -624 3.133286e+07 -2.92368e-02 -625 3.162278e+07 -2.95455e-02 -626 3.191538e+07 -2.98591e-02 -627 3.221069e+07 -3.01778e-02 -628 3.250873e+07 -3.05016e-02 -629 3.280953e+07 -3.08306e-02 -630 3.311311e+07 -3.11648e-02 -631 3.341950e+07 -3.15044e-02 -632 3.372873e+07 -3.18494e-02 -633 3.404082e+07 -3.21999e-02 -634 3.435579e+07 -3.25559e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -635 3.467369e+07 -3.29176e-02 -636 3.499452e+07 -3.32849e-02 -637 3.531832e+07 -3.36580e-02 -638 3.564511e+07 -3.40369e-02 -639 3.597493e+07 -3.44217e-02 -640 3.630781e+07 -3.48125e-02 -641 3.664376e+07 -3.52093e-02 -642 3.698282e+07 -3.56122e-02 -643 3.732502e+07 -3.60213e-02 -644 3.767038e+07 -3.64367e-02 -645 3.801894e+07 -3.68584e-02 -646 3.837072e+07 -3.72865e-02 -647 3.872576e+07 -3.77211e-02 -648 3.908409e+07 -3.81623e-02 -649 3.944573e+07 -3.86100e-02 -650 3.981072e+07 -3.90645e-02 -651 4.017908e+07 -3.95257e-02 -652 4.055085e+07 -3.99937e-02 -653 4.092607e+07 -4.04687e-02 -654 4.130475e+07 -4.09506e-02 -655 4.168694e+07 -4.14396e-02 -656 4.207266e+07 -4.19357e-02 -657 4.246196e+07 -4.24391e-02 -658 4.285485e+07 -4.29496e-02 -659 4.325138e+07 -4.34675e-02 -660 4.365158e+07 -4.39928e-02 -661 4.405549e+07 -4.45256e-02 -662 4.446313e+07 -4.50659e-02 -663 4.487454e+07 -4.56138e-02 -664 4.528976e+07 -4.61694e-02 -665 4.570882e+07 -4.67327e-02 -666 4.613176e+07 -4.73038e-02 -667 4.655861e+07 -4.78827e-02 -668 4.698941e+07 -4.84696e-02 -669 4.742420e+07 -4.90645e-02 -670 4.786301e+07 -4.96674e-02 -671 4.830588e+07 -5.02785e-02 -672 4.875285e+07 -5.08977e-02 -673 4.920395e+07 -5.15251e-02 -674 4.965923e+07 -5.21608e-02 -675 5.011872e+07 -5.28048e-02 -676 5.058247e+07 -5.34573e-02 -677 5.105050e+07 -5.41181e-02 -678 5.152286e+07 -5.47875e-02 -679 5.199960e+07 -5.54654e-02 -680 5.248075e+07 -5.61519e-02 -681 5.296634e+07 -5.68470e-02 -682 5.345644e+07 -5.75508e-02 -683 5.395106e+07 -5.82633e-02 -684 5.445027e+07 -5.89846e-02 -685 5.495409e+07 -5.97147e-02 -686 5.546257e+07 -6.04536e-02 -687 5.597576e+07 -6.12013e-02 -688 5.649370e+07 -6.19580e-02 -689 5.701643e+07 -6.27236e-02 -690 5.754399e+07 -6.34982e-02 -691 5.807644e+07 -6.42817e-02 -692 5.861382e+07 -6.50743e-02 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -693 5.915616e+07 -6.58759e-02 -694 5.970353e+07 -6.66865e-02 -695 6.025596e+07 -6.75062e-02 -696 6.081350e+07 -6.83350e-02 -697 6.137620e+07 -6.91729e-02 -698 6.194411e+07 -7.00199e-02 -699 6.251727e+07 -7.08760e-02 -700 6.309573e+07 -7.17412e-02 -701 6.367955e+07 -7.26156e-02 -702 6.426877e+07 -7.34990e-02 -703 6.486344e+07 -7.43916e-02 -704 6.546362e+07 -7.52933e-02 -705 6.606934e+07 -7.62041e-02 -706 6.668068e+07 -7.71240e-02 -707 6.729767e+07 -7.80529e-02 -708 6.792036e+07 -7.89909e-02 -709 6.854882e+07 -7.99380e-02 -710 6.918310e+07 -8.08941e-02 -711 6.982324e+07 -8.18592e-02 -712 7.046931e+07 -8.28333e-02 -713 7.112135e+07 -8.38163e-02 -714 7.177943e+07 -8.48083e-02 -715 7.244360e+07 -8.58092e-02 -716 7.311391e+07 -8.68189e-02 -717 7.379042e+07 -8.78374e-02 -718 7.447320e+07 -8.88647e-02 -719 7.516229e+07 -8.99008e-02 -720 7.585776e+07 -9.09456e-02 -721 7.655966e+07 -9.19990e-02 -722 7.726806e+07 -9.30610e-02 -723 7.798301e+07 -9.41317e-02 -724 7.870458e+07 -9.52108e-02 -725 7.943282e+07 -9.62984e-02 -726 8.016781e+07 -9.73945e-02 -727 8.090959e+07 -9.84989e-02 -728 8.165824e+07 -9.96116e-02 -729 8.241381e+07 -1.00733e-01 -730 8.317638e+07 -1.01862e-01 -731 8.394600e+07 -1.02999e-01 -732 8.472274e+07 -1.04145e-01 -733 8.550667e+07 -1.05298e-01 -734 8.629785e+07 -1.06460e-01 -735 8.709636e+07 -1.07630e-01 -736 8.790225e+07 -1.08807e-01 -737 8.871560e+07 -1.09992e-01 -738 8.953648e+07 -1.11185e-01 -739 9.036495e+07 -1.12386e-01 -740 9.120108e+07 -1.13595e-01 -741 9.204496e+07 -1.14811e-01 -742 9.289664e+07 -1.16035e-01 -743 9.375620e+07 -1.17267e-01 -744 9.462372e+07 -1.18506e-01 -745 9.549926e+07 -1.19753e-01 -746 9.638290e+07 -1.21007e-01 -747 9.727472e+07 -1.22268e-01 -748 9.817479e+07 -1.23538e-01 -749 9.908319e+07 -1.24814e-01 -750 1.000000e+08 -1.26098e-01 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -751 1.009253e+08 -1.27389e-01 -752 1.018591e+08 -1.28688e-01 -753 1.028016e+08 -1.29994e-01 -754 1.037528e+08 -1.31307e-01 -755 1.047129e+08 -1.32628e-01 -756 1.056818e+08 -1.33956e-01 -757 1.066596e+08 -1.35292e-01 -758 1.076465e+08 -1.36635e-01 -759 1.086426e+08 -1.37985e-01 -760 1.096478e+08 -1.39343e-01 -761 1.106624e+08 -1.40708e-01 -762 1.116863e+08 -1.42081e-01 -763 1.127197e+08 -1.43461e-01 -764 1.137627e+08 -1.44849e-01 -765 1.148154e+08 -1.46244e-01 -766 1.158777e+08 -1.47647e-01 -767 1.169499e+08 -1.49057e-01 -768 1.180321e+08 -1.50476e-01 -769 1.191242e+08 -1.51901e-01 -770 1.202264e+08 -1.53335e-01 -771 1.213389e+08 -1.54776e-01 -772 1.224616e+08 -1.56226e-01 -773 1.235947e+08 -1.57683e-01 -774 1.247384e+08 -1.59148e-01 -775 1.258925e+08 -1.60621e-01 -776 1.270574e+08 -1.62101e-01 -777 1.282331e+08 -1.63590e-01 -778 1.294196e+08 -1.65086e-01 -779 1.306171e+08 -1.66591e-01 -780 1.318257e+08 -1.68103e-01 -781 1.330454e+08 -1.69623e-01 -782 1.342765e+08 -1.71151e-01 -783 1.355189e+08 -1.72687e-01 -784 1.367729e+08 -1.74231e-01 -785 1.380384e+08 -1.75782e-01 -786 1.393157e+08 -1.77340e-01 -787 1.406048e+08 -1.78906e-01 -788 1.419058e+08 -1.80479e-01 -789 1.432188e+08 -1.82059e-01 -790 1.445440e+08 -1.83646e-01 -791 1.458814e+08 -1.85239e-01 -792 1.472313e+08 -1.86839e-01 -793 1.485936e+08 -1.88444e-01 -794 1.499685e+08 -1.90056e-01 -795 1.513561e+08 -1.91672e-01 -796 1.527566e+08 -1.93294e-01 -797 1.541700e+08 -1.94920e-01 -798 1.555966e+08 -1.96550e-01 -799 1.570363e+08 -1.98184e-01 -800 1.584893e+08 -1.99821e-01 -801 1.599558e+08 -2.01460e-01 -802 1.614359e+08 -2.03101e-01 -803 1.629296e+08 -2.04744e-01 -804 1.644372e+08 -2.06387e-01 -805 1.659587e+08 -2.08029e-01 -806 1.674943e+08 -2.09671e-01 -807 1.690441e+08 -2.11311e-01 -808 1.706082e+08 -2.12949e-01 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -809 1.721869e+08 -2.14583e-01 -810 1.737801e+08 -2.16213e-01 -811 1.753881e+08 -2.17838e-01 -812 1.770109e+08 -2.19457e-01 -813 1.786488e+08 -2.21069e-01 -814 1.803018e+08 -2.22673e-01 -815 1.819701e+08 -2.24269e-01 -816 1.836538e+08 -2.25854e-01 -817 1.853532e+08 -2.27429e-01 -818 1.870682e+08 -2.28993e-01 -819 1.887991e+08 -2.30543e-01 -820 1.905461e+08 -2.32081e-01 -821 1.923092e+08 -2.33604e-01 -822 1.940886e+08 -2.35113e-01 -823 1.958845e+08 -2.36606e-01 -824 1.976970e+08 -2.38082e-01 -825 1.995262e+08 -2.39541e-01 -826 2.013724e+08 -2.40983e-01 -827 2.032357e+08 -2.42407e-01 -828 2.051162e+08 -2.43813e-01 -829 2.070141e+08 -2.45200e-01 -830 2.089296e+08 -2.46568e-01 -831 2.108628e+08 -2.47918e-01 -832 2.128139e+08 -2.49249e-01 -833 2.147830e+08 -2.50561e-01 -834 2.167704e+08 -2.51856e-01 -835 2.187762e+08 -2.53133e-01 -836 2.208005e+08 -2.54393e-01 -837 2.228435e+08 -2.55637e-01 -838 2.249055e+08 -2.56866e-01 -839 2.269865e+08 -2.58081e-01 -840 2.290868e+08 -2.59283e-01 -841 2.312065e+08 -2.60474e-01 -842 2.333458e+08 -2.61656e-01 -843 2.355049e+08 -2.62829e-01 -844 2.376840e+08 -2.63995e-01 -845 2.398833e+08 -2.65157e-01 -846 2.421029e+08 -2.66317e-01 -847 2.443431e+08 -2.67475e-01 -848 2.466039e+08 -2.68635e-01 -849 2.488857e+08 -2.69799e-01 -850 2.511886e+08 -2.70968e-01 -851 2.535129e+08 -2.72145e-01 -852 2.558586e+08 -2.73331e-01 -853 2.582260e+08 -2.74528e-01 -854 2.606154e+08 -2.75739e-01 -855 2.630268e+08 -2.76964e-01 -856 2.654606e+08 -2.78205e-01 -857 2.679168e+08 -2.79464e-01 -858 2.703958e+08 -2.80741e-01 -859 2.728978e+08 -2.82037e-01 -860 2.754229e+08 -2.83353e-01 -861 2.779713e+08 -2.84688e-01 -862 2.805434e+08 -2.86042e-01 -863 2.831392e+08 -2.87414e-01 -864 2.857591e+08 -2.88804e-01 -865 2.884032e+08 -2.90210e-01 -866 2.910717e+08 -2.91630e-01 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -867 2.937650e+08 -2.93062e-01 -868 2.964831e+08 -2.94504e-01 -869 2.992265e+08 -2.95953e-01 -870 3.019952e+08 -2.97405e-01 -871 3.047895e+08 -2.98858e-01 -872 3.076097e+08 -3.00307e-01 -873 3.104560e+08 -3.01749e-01 -874 3.133286e+08 -3.03181e-01 -875 3.162278e+08 -3.04597e-01 -876 3.191538e+08 -3.05995e-01 -877 3.221069e+08 -3.07372e-01 -878 3.250873e+08 -3.08722e-01 -879 3.280953e+08 -3.10044e-01 -880 3.311311e+08 -3.11335e-01 -881 3.341950e+08 -3.12593e-01 -882 3.372873e+08 -3.13816e-01 -883 3.404082e+08 -3.15004e-01 -884 3.435579e+08 -3.16155e-01 -885 3.467369e+08 -3.17272e-01 -886 3.499452e+08 -3.18355e-01 -887 3.531832e+08 -3.19407e-01 -888 3.564511e+08 -3.20432e-01 -889 3.597493e+08 -3.21432e-01 -890 3.630781e+08 -3.22414e-01 -891 3.664376e+08 -3.23382e-01 -892 3.698282e+08 -3.24343e-01 -893 3.732502e+08 -3.25304e-01 -894 3.767038e+08 -3.26272e-01 -895 3.801894e+08 -3.27254e-01 -896 3.837072e+08 -3.28258e-01 -897 3.872576e+08 -3.29290e-01 -898 3.908409e+08 -3.30358e-01 -899 3.944573e+08 -3.31468e-01 -900 3.981072e+08 -3.32625e-01 -901 4.017908e+08 -3.33834e-01 -902 4.055085e+08 -3.35097e-01 -903 4.092607e+08 -3.36416e-01 -904 4.130475e+08 -3.37792e-01 -905 4.168694e+08 -3.39223e-01 -906 4.207266e+08 -3.40705e-01 -907 4.246196e+08 -3.42234e-01 -908 4.285485e+08 -3.43803e-01 -909 4.325138e+08 -3.45404e-01 -910 4.365158e+08 -3.47028e-01 -911 4.405549e+08 -3.48665e-01 -912 4.446313e+08 -3.50303e-01 -913 4.487454e+08 -3.51933e-01 -914 4.528976e+08 -3.53541e-01 -915 4.570882e+08 -3.55119e-01 -916 4.613176e+08 -3.56656e-01 -917 4.655861e+08 -3.58145e-01 -918 4.698941e+08 -3.59579e-01 -919 4.742420e+08 -3.60956e-01 -920 4.786301e+08 -3.62274e-01 -921 4.830588e+08 -3.63535e-01 -922 4.875285e+08 -3.64745e-01 -923 4.920395e+08 -3.65911e-01 -924 4.965923e+08 -3.67044e-01 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -925 5.011872e+08 -3.68158e-01 -926 5.058247e+08 -3.69268e-01 -927 5.105050e+08 -3.70391e-01 -928 5.152286e+08 -3.71546e-01 -929 5.199960e+08 -3.72749e-01 -930 5.248075e+08 -3.74017e-01 -931 5.296634e+08 -3.75365e-01 -932 5.345644e+08 -3.76806e-01 -933 5.395106e+08 -3.78347e-01 -934 5.445027e+08 -3.79993e-01 -935 5.495409e+08 -3.81743e-01 -936 5.546257e+08 -3.83591e-01 -937 5.597576e+08 -3.85528e-01 -938 5.649370e+08 -3.87537e-01 -939 5.701643e+08 -3.89599e-01 -940 5.754399e+08 -3.91692e-01 -941 5.807644e+08 -3.93791e-01 -942 5.861382e+08 -3.95872e-01 -943 5.915616e+08 -3.97911e-01 -944 5.970353e+08 -3.99888e-01 -945 6.025596e+08 -4.01787e-01 -946 6.081350e+08 -4.03596e-01 -947 6.137620e+08 -4.05313e-01 -948 6.194411e+08 -4.06942e-01 -949 6.251727e+08 -4.08496e-01 -950 6.309573e+08 -4.09993e-01 -951 6.367955e+08 -4.11460e-01 -952 6.426877e+08 -4.12929e-01 -953 6.486344e+08 -4.14434e-01 -954 6.546362e+08 -4.16010e-01 -955 6.606934e+08 -4.17690e-01 -956 6.668068e+08 -4.19501e-01 -957 6.729767e+08 -4.21464e-01 -958 6.792036e+08 -4.23589e-01 -959 6.854882e+08 -4.25875e-01 -960 6.918310e+08 -4.28308e-01 -961 6.982324e+08 -4.30866e-01 -962 7.046931e+08 -4.33512e-01 -963 7.112135e+08 -4.36206e-01 -964 7.177943e+08 -4.38903e-01 -965 7.244360e+08 -4.41556e-01 -966 7.311391e+08 -4.44126e-01 -967 7.379042e+08 -4.46580e-01 -968 7.447320e+08 -4.48902e-01 -969 7.516229e+08 -4.51087e-01 -970 7.585776e+08 -4.53151e-01 -971 7.655966e+08 -4.55124e-01 -972 7.726806e+08 -4.57052e-01 -973 7.798301e+08 -4.58990e-01 -974 7.870458e+08 -4.60998e-01 -975 7.943282e+08 -4.63136e-01 -976 8.016781e+08 -4.65454e-01 -977 8.090959e+08 -4.67985e-01 -978 8.165824e+08 -4.70744e-01 -979 8.241381e+08 -4.73723e-01 -980 8.317638e+08 -4.76887e-01 -981 8.394600e+08 -4.80184e-01 -982 8.472274e+08 -4.83545e-01 - -Index frequency db(v(14)-v(15)) --------------------------------------------------------------------------------- -983 8.550667e+08 -4.86893e-01 -984 8.629785e+08 -4.90154e-01 -985 8.709636e+08 -4.93271e-01 -986 8.790225e+08 -4.96203e-01 -987 8.871560e+08 -4.98945e-01 -988 8.953648e+08 -5.01518e-01 -989 9.036495e+08 -5.03979e-01 -990 9.120108e+08 -5.06408e-01 -991 9.204496e+08 -5.08897e-01 -992 9.289664e+08 -5.11542e-01 -993 9.375620e+08 -5.14421e-01 -994 9.462372e+08 -5.17588e-01 -995 9.549926e+08 -5.21054e-01 -996 9.638290e+08 -5.24790e-01 -997 9.727472e+08 -5.28725e-01 -998 9.817479e+08 -5.32758e-01 -999 9.908319e+08 -5.36771e-01 -1000 1.000000e+09 -5.40654e-01 - -CPU time since last call: 0.053 seconds. - -Total CPU time: 0.053 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4866.128906 MB. -Total ngspice program size = 7.100586 MB. -Resident set size = 802.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 350.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec deleted file mode 100644 index 885e265..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901002_V34 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec deleted file mode 100644 index 93debbc..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/TP_AWG_20_ESCC_3901002_V34_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901002_V34_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/analytic_solution.dat_reference deleted file mode 100644 index 1e416e4..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49968691952521133 -2.5511769264547485E-003 - 100926.21909870484 0.49968601093020126 -2.5739890395974612E-003 - 101861.01701559752 0.49968509144306011 -2.5969956624610989E-003 - 102804.47320933097 0.49968416101643220 -2.6201983422722017E-003 - 103756.66787451849 0.49968321960504364 -2.6435986399595099E-003 - 104717.68194855202 0.49968226716575420 -2.6671981304036540E-003 - 105687.59711848051 0.49968130365760610 -2.6909984026914223E-003 - 106666.49582795388 0.49968032904187287 -2.7150010603766567E-003 - 107654.46128423158 0.49967934328210611 -2.7392077217465258E-003 - 108651.57746525372 0.49967834634418212 -2.7636200200948434E-003 - 109657.92912678099 0.49967733819634619 -2.7882396039997396E-003 - 110673.60180959746 0.49967631880925406 -2.8130681376084990E-003 - 111698.68184678226 0.49967528815601531 -2.8381073009274027E-003 - 112733.25637104872 0.49967424621223089 -2.8633587901176075E-003 - 113777.41332214902 0.49967319295603202 -2.8888243177969263E-003 - 114831.24145435111 0.49967212836811353 -2.9145056133466169E-003 - 115894.83034398119 0.49967105243176962 -2.9404044232243976E-003 - 116968.27039703846 0.49966996513292439 -2.9665225112826114E-003 - 118051.65285688055 0.49966886646015918 -2.9928616590911487E-003 - 119145.06981197748 0.49966775640474109 -3.0194236662670110E-003 - 120248.61420374122 0.49966663496064512 -3.0462103508072371E-003 - 121362.37983442418 0.49966550212457694 -3.0732235494281678E-003 - 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0.47224998117773004 -1.3923480708265004 - 972720319.24505568 0.47193400677768921 -1.5764563665552198 - 981729840.61888206 0.47218142078883085 -1.7623111696605029 - 990822809.90037870 0.47296242242729575 -1.9503704981385102 - 1000000000.0000000 0.47417190290303018 -2.1410520472970367 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/result_comparison.dat_reference deleted file mode 100644 index 8f7eb2c..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00180738 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/spice_solution.dat_reference deleted file mode 100644 index efc9140..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:44:57 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.998311e-01 -1 1.009253e+05 4.998311e-01 -2 1.018591e+05 4.998311e-01 -3 1.028016e+05 4.998311e-01 -4 1.037528e+05 4.998311e-01 -5 1.047129e+05 4.998311e-01 -6 1.056818e+05 4.998311e-01 -7 1.066596e+05 4.998311e-01 -8 1.076465e+05 4.998311e-01 -9 1.086426e+05 4.998311e-01 -10 1.096478e+05 4.998311e-01 -11 1.106624e+05 4.998310e-01 -12 1.116863e+05 4.998310e-01 -13 1.127197e+05 4.998310e-01 -14 1.137627e+05 4.998310e-01 -15 1.148154e+05 4.998310e-01 -16 1.158777e+05 4.998310e-01 -17 1.169499e+05 4.998310e-01 -18 1.180321e+05 4.998310e-01 -19 1.191242e+05 4.998310e-01 -20 1.202264e+05 4.998310e-01 -21 1.213389e+05 4.998310e-01 -22 1.224616e+05 4.998310e-01 -23 1.235947e+05 4.998310e-01 -24 1.247384e+05 4.998310e-01 -25 1.258925e+05 4.998310e-01 -26 1.270574e+05 4.998310e-01 -27 1.282331e+05 4.998310e-01 -28 1.294196e+05 4.998310e-01 -29 1.306171e+05 4.998310e-01 -30 1.318257e+05 4.998310e-01 -31 1.330454e+05 4.998309e-01 -32 1.342765e+05 4.998309e-01 -33 1.355189e+05 4.998309e-01 -34 1.367729e+05 4.998309e-01 -35 1.380384e+05 4.998309e-01 -36 1.393157e+05 4.998309e-01 -37 1.406048e+05 4.998309e-01 -38 1.419058e+05 4.998309e-01 -39 1.432188e+05 4.998309e-01 -40 1.445440e+05 4.998309e-01 -41 1.458814e+05 4.998309e-01 -42 1.472313e+05 4.998309e-01 -43 1.485936e+05 4.998309e-01 -44 1.499685e+05 4.998309e-01 -45 1.513561e+05 4.998308e-01 -46 1.527566e+05 4.998308e-01 -47 1.541700e+05 4.998308e-01 -48 1.555966e+05 4.998308e-01 -49 1.570363e+05 4.998308e-01 -50 1.584893e+05 4.998308e-01 -51 1.599558e+05 4.998308e-01 -52 1.614359e+05 4.998308e-01 -53 1.629296e+05 4.998308e-01 -54 1.644372e+05 4.998308e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.998308e-01 -56 1.674943e+05 4.998308e-01 -57 1.690441e+05 4.998307e-01 -58 1.706082e+05 4.998307e-01 -59 1.721869e+05 4.998307e-01 -60 1.737801e+05 4.998307e-01 -61 1.753881e+05 4.998307e-01 -62 1.770109e+05 4.998307e-01 -63 1.786488e+05 4.998307e-01 -64 1.803018e+05 4.998307e-01 -65 1.819701e+05 4.998307e-01 -66 1.836538e+05 4.998306e-01 -67 1.853532e+05 4.998306e-01 -68 1.870682e+05 4.998306e-01 -69 1.887991e+05 4.998306e-01 -70 1.905461e+05 4.998306e-01 -71 1.923092e+05 4.998306e-01 -72 1.940886e+05 4.998306e-01 -73 1.958845e+05 4.998306e-01 -74 1.976970e+05 4.998305e-01 -75 1.995262e+05 4.998305e-01 -76 2.013724e+05 4.998305e-01 -77 2.032357e+05 4.998305e-01 -78 2.051162e+05 4.998305e-01 -79 2.070141e+05 4.998305e-01 -80 2.089296e+05 4.998305e-01 -81 2.108628e+05 4.998304e-01 -82 2.128139e+05 4.998304e-01 -83 2.147830e+05 4.998304e-01 -84 2.167704e+05 4.998304e-01 -85 2.187762e+05 4.998304e-01 -86 2.208005e+05 4.998304e-01 -87 2.228435e+05 4.998303e-01 -88 2.249055e+05 4.998303e-01 -89 2.269865e+05 4.998303e-01 -90 2.290868e+05 4.998303e-01 -91 2.312065e+05 4.998303e-01 -92 2.333458e+05 4.998303e-01 -93 2.355049e+05 4.998302e-01 -94 2.376840e+05 4.998302e-01 -95 2.398833e+05 4.998302e-01 -96 2.421029e+05 4.998302e-01 -97 2.443431e+05 4.998302e-01 -98 2.466039e+05 4.998301e-01 -99 2.488857e+05 4.998301e-01 -100 2.511886e+05 4.998301e-01 -101 2.535129e+05 4.998301e-01 -102 2.558586e+05 4.998301e-01 -103 2.582260e+05 4.998300e-01 -104 2.606154e+05 4.998300e-01 -105 2.630268e+05 4.998300e-01 -106 2.654606e+05 4.998300e-01 -107 2.679168e+05 4.998299e-01 -108 2.703958e+05 4.998299e-01 -109 2.728978e+05 4.998299e-01 -110 2.754229e+05 4.998299e-01 -111 2.779713e+05 4.998298e-01 -112 2.805434e+05 4.998298e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.998298e-01 -114 2.857591e+05 4.998298e-01 -115 2.884032e+05 4.998297e-01 -116 2.910717e+05 4.998297e-01 -117 2.937650e+05 4.998297e-01 -118 2.964831e+05 4.998296e-01 -119 2.992265e+05 4.998296e-01 -120 3.019952e+05 4.998296e-01 -121 3.047895e+05 4.998295e-01 -122 3.076097e+05 4.998295e-01 -123 3.104560e+05 4.998295e-01 -124 3.133286e+05 4.998294e-01 -125 3.162278e+05 4.998294e-01 -126 3.191538e+05 4.998294e-01 -127 3.221069e+05 4.998293e-01 -128 3.250873e+05 4.998293e-01 -129 3.280953e+05 4.998293e-01 -130 3.311311e+05 4.998292e-01 -131 3.341950e+05 4.998292e-01 -132 3.372873e+05 4.998292e-01 -133 3.404082e+05 4.998291e-01 -134 3.435579e+05 4.998291e-01 -135 3.467369e+05 4.998290e-01 -136 3.499452e+05 4.998290e-01 -137 3.531832e+05 4.998289e-01 -138 3.564511e+05 4.998289e-01 -139 3.597493e+05 4.998289e-01 -140 3.630781e+05 4.998288e-01 -141 3.664376e+05 4.998288e-01 -142 3.698282e+05 4.998287e-01 -143 3.732502e+05 4.998287e-01 -144 3.767038e+05 4.998286e-01 -145 3.801894e+05 4.998286e-01 -146 3.837072e+05 4.998285e-01 -147 3.872576e+05 4.998285e-01 -148 3.908409e+05 4.998284e-01 -149 3.944573e+05 4.998284e-01 -150 3.981072e+05 4.998283e-01 -151 4.017908e+05 4.998283e-01 -152 4.055085e+05 4.998282e-01 -153 4.092607e+05 4.998281e-01 -154 4.130475e+05 4.998281e-01 -155 4.168694e+05 4.998280e-01 -156 4.207266e+05 4.998280e-01 -157 4.246196e+05 4.998279e-01 -158 4.285485e+05 4.998278e-01 -159 4.325138e+05 4.998278e-01 -160 4.365158e+05 4.998277e-01 -161 4.405549e+05 4.998277e-01 -162 4.446313e+05 4.998276e-01 -163 4.487454e+05 4.998275e-01 -164 4.528976e+05 4.998274e-01 -165 4.570882e+05 4.998274e-01 -166 4.613176e+05 4.998273e-01 -167 4.655861e+05 4.998272e-01 -168 4.698941e+05 4.998272e-01 -169 4.742420e+05 4.998271e-01 -170 4.786301e+05 4.998270e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.998269e-01 -172 4.875285e+05 4.998268e-01 -173 4.920395e+05 4.998268e-01 -174 4.965923e+05 4.998267e-01 -175 5.011872e+05 4.998266e-01 -176 5.058247e+05 4.998265e-01 -177 5.105050e+05 4.998264e-01 -178 5.152286e+05 4.998263e-01 -179 5.199960e+05 4.998262e-01 -180 5.248075e+05 4.998261e-01 -181 5.296634e+05 4.998260e-01 -182 5.345644e+05 4.998259e-01 -183 5.395106e+05 4.998258e-01 -184 5.445027e+05 4.998257e-01 -185 5.495409e+05 4.998256e-01 -186 5.546257e+05 4.998255e-01 -187 5.597576e+05 4.998254e-01 -188 5.649370e+05 4.998253e-01 -189 5.701643e+05 4.998252e-01 -190 5.754399e+05 4.998251e-01 -191 5.807644e+05 4.998250e-01 -192 5.861382e+05 4.998249e-01 -193 5.915616e+05 4.998247e-01 -194 5.970353e+05 4.998246e-01 -195 6.025596e+05 4.998245e-01 -196 6.081350e+05 4.998244e-01 -197 6.137620e+05 4.998242e-01 -198 6.194411e+05 4.998241e-01 -199 6.251727e+05 4.998240e-01 -200 6.309573e+05 4.998238e-01 -201 6.367955e+05 4.998237e-01 -202 6.426877e+05 4.998236e-01 -203 6.486344e+05 4.998234e-01 -204 6.546362e+05 4.998233e-01 -205 6.606934e+05 4.998231e-01 -206 6.668068e+05 4.998230e-01 -207 6.729767e+05 4.998228e-01 -208 6.792036e+05 4.998227e-01 -209 6.854882e+05 4.998225e-01 -210 6.918310e+05 4.998223e-01 -211 6.982324e+05 4.998222e-01 -212 7.046931e+05 4.998220e-01 -213 7.112135e+05 4.998218e-01 -214 7.177943e+05 4.998217e-01 -215 7.244360e+05 4.998215e-01 -216 7.311391e+05 4.998213e-01 -217 7.379042e+05 4.998211e-01 -218 7.447320e+05 4.998209e-01 -219 7.516229e+05 4.998207e-01 -220 7.585776e+05 4.998205e-01 -221 7.655966e+05 4.998203e-01 -222 7.726806e+05 4.998201e-01 -223 7.798301e+05 4.998199e-01 -224 7.870458e+05 4.998197e-01 -225 7.943282e+05 4.998195e-01 -226 8.016781e+05 4.998193e-01 -227 8.090959e+05 4.998191e-01 -228 8.165824e+05 4.998188e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.998186e-01 -230 8.317638e+05 4.998184e-01 -231 8.394600e+05 4.998181e-01 -232 8.472274e+05 4.998179e-01 -233 8.550667e+05 4.998176e-01 -234 8.629785e+05 4.998174e-01 -235 8.709636e+05 4.998171e-01 -236 8.790225e+05 4.998169e-01 -237 8.871560e+05 4.998166e-01 -238 8.953648e+05 4.998163e-01 -239 9.036495e+05 4.998161e-01 -240 9.120108e+05 4.998158e-01 -241 9.204496e+05 4.998155e-01 -242 9.289664e+05 4.998152e-01 -243 9.375620e+05 4.998149e-01 -244 9.462372e+05 4.998146e-01 -245 9.549926e+05 4.998143e-01 -246 9.638290e+05 4.998140e-01 -247 9.727472e+05 4.998136e-01 -248 9.817479e+05 4.998133e-01 -249 9.908319e+05 4.998130e-01 -250 1.000000e+06 4.998127e-01 -251 1.009253e+06 4.998123e-01 -252 1.018591e+06 4.998120e-01 -253 1.028016e+06 4.998116e-01 -254 1.037528e+06 4.998112e-01 -255 1.047129e+06 4.998109e-01 -256 1.056818e+06 4.998105e-01 -257 1.066596e+06 4.998101e-01 -258 1.076465e+06 4.998097e-01 -259 1.086426e+06 4.998093e-01 -260 1.096478e+06 4.998089e-01 -261 1.106624e+06 4.998085e-01 -262 1.116863e+06 4.998081e-01 -263 1.127197e+06 4.998076e-01 -264 1.137627e+06 4.998072e-01 -265 1.148154e+06 4.998067e-01 -266 1.158777e+06 4.998063e-01 -267 1.169499e+06 4.998058e-01 -268 1.180321e+06 4.998054e-01 -269 1.191242e+06 4.998049e-01 -270 1.202264e+06 4.998044e-01 -271 1.213389e+06 4.998039e-01 -272 1.224616e+06 4.998034e-01 -273 1.235947e+06 4.998029e-01 -274 1.247384e+06 4.998023e-01 -275 1.258925e+06 4.998018e-01 -276 1.270574e+06 4.998013e-01 -277 1.282331e+06 4.998007e-01 -278 1.294196e+06 4.998001e-01 -279 1.306171e+06 4.997996e-01 -280 1.318257e+06 4.997990e-01 -281 1.330454e+06 4.997984e-01 -282 1.342765e+06 4.997978e-01 -283 1.355189e+06 4.997971e-01 -284 1.367729e+06 4.997965e-01 -285 1.380384e+06 4.997959e-01 -286 1.393157e+06 4.997952e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.997945e-01 -288 1.419058e+06 4.997939e-01 -289 1.432188e+06 4.997932e-01 -290 1.445440e+06 4.997925e-01 -291 1.458814e+06 4.997918e-01 -292 1.472313e+06 4.997910e-01 -293 1.485936e+06 4.997903e-01 -294 1.499685e+06 4.997895e-01 -295 1.513561e+06 4.997888e-01 -296 1.527566e+06 4.997880e-01 -297 1.541700e+06 4.997872e-01 -298 1.555966e+06 4.997864e-01 -299 1.570363e+06 4.997855e-01 -300 1.584893e+06 4.997847e-01 -301 1.599558e+06 4.997838e-01 -302 1.614359e+06 4.997829e-01 -303 1.629296e+06 4.997820e-01 -304 1.644372e+06 4.997811e-01 -305 1.659587e+06 4.997802e-01 -306 1.674943e+06 4.997793e-01 -307 1.690441e+06 4.997783e-01 -308 1.706082e+06 4.997773e-01 -309 1.721869e+06 4.997763e-01 -310 1.737801e+06 4.997753e-01 -311 1.753881e+06 4.997743e-01 -312 1.770109e+06 4.997732e-01 -313 1.786488e+06 4.997722e-01 -314 1.803018e+06 4.997711e-01 -315 1.819701e+06 4.997700e-01 -316 1.836538e+06 4.997688e-01 -317 1.853532e+06 4.997677e-01 -318 1.870682e+06 4.997665e-01 -319 1.887991e+06 4.997653e-01 -320 1.905461e+06 4.997641e-01 -321 1.923092e+06 4.997629e-01 -322 1.940886e+06 4.997616e-01 -323 1.958845e+06 4.997603e-01 -324 1.976970e+06 4.997590e-01 -325 1.995262e+06 4.997577e-01 -326 2.013724e+06 4.997564e-01 -327 2.032357e+06 4.997550e-01 -328 2.051162e+06 4.997536e-01 -329 2.070141e+06 4.997521e-01 -330 2.089296e+06 4.997507e-01 -331 2.108628e+06 4.997492e-01 -332 2.128139e+06 4.997477e-01 -333 2.147830e+06 4.997462e-01 -334 2.167704e+06 4.997446e-01 -335 2.187762e+06 4.997430e-01 -336 2.208005e+06 4.997414e-01 -337 2.228435e+06 4.997397e-01 -338 2.249055e+06 4.997381e-01 -339 2.269865e+06 4.997364e-01 -340 2.290868e+06 4.997346e-01 -341 2.312065e+06 4.997328e-01 -342 2.333458e+06 4.997310e-01 -343 2.355049e+06 4.997292e-01 -344 2.376840e+06 4.997273e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.997254e-01 -346 2.421029e+06 4.997235e-01 -347 2.443431e+06 4.997215e-01 -348 2.466039e+06 4.997195e-01 -349 2.488857e+06 4.997175e-01 -350 2.511886e+06 4.997154e-01 -351 2.535129e+06 4.997133e-01 -352 2.558586e+06 4.997111e-01 -353 2.582260e+06 4.997089e-01 -354 2.606154e+06 4.997067e-01 -355 2.630268e+06 4.997044e-01 -356 2.654606e+06 4.997021e-01 -357 2.679168e+06 4.996997e-01 -358 2.703958e+06 4.996973e-01 -359 2.728978e+06 4.996949e-01 -360 2.754229e+06 4.996924e-01 -361 2.779713e+06 4.996899e-01 -362 2.805434e+06 4.996873e-01 -363 2.831392e+06 4.996847e-01 -364 2.857591e+06 4.996820e-01 -365 2.884032e+06 4.996793e-01 -366 2.910717e+06 4.996765e-01 -367 2.937650e+06 4.996737e-01 -368 2.964831e+06 4.996709e-01 -369 2.992265e+06 4.996679e-01 -370 3.019952e+06 4.996650e-01 -371 3.047895e+06 4.996620e-01 -372 3.076097e+06 4.996589e-01 -373 3.104560e+06 4.996558e-01 -374 3.133286e+06 4.996526e-01 -375 3.162278e+06 4.996493e-01 -376 3.191538e+06 4.996461e-01 -377 3.221069e+06 4.996427e-01 -378 3.250873e+06 4.996393e-01 -379 3.280953e+06 4.996358e-01 -380 3.311311e+06 4.996323e-01 -381 3.341950e+06 4.996287e-01 -382 3.372873e+06 4.996250e-01 -383 3.404082e+06 4.996213e-01 -384 3.435579e+06 4.996175e-01 -385 3.467369e+06 4.996137e-01 -386 3.499452e+06 4.996098e-01 -387 3.531832e+06 4.996058e-01 -388 3.564511e+06 4.996017e-01 -389 3.597493e+06 4.995976e-01 -390 3.630781e+06 4.995934e-01 -391 3.664376e+06 4.995891e-01 -392 3.698282e+06 4.995848e-01 -393 3.732502e+06 4.995803e-01 -394 3.767038e+06 4.995758e-01 -395 3.801894e+06 4.995713e-01 -396 3.837072e+06 4.995666e-01 -397 3.872576e+06 4.995619e-01 -398 3.908409e+06 4.995571e-01 -399 3.944573e+06 4.995522e-01 -400 3.981072e+06 4.995472e-01 -401 4.017908e+06 4.995421e-01 -402 4.055085e+06 4.995370e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.995317e-01 -404 4.130475e+06 4.995264e-01 -405 4.168694e+06 4.995210e-01 -406 4.207266e+06 4.995154e-01 -407 4.246196e+06 4.995098e-01 -408 4.285485e+06 4.995041e-01 -409 4.325138e+06 4.994983e-01 -410 4.365158e+06 4.994924e-01 -411 4.405549e+06 4.994864e-01 -412 4.446313e+06 4.994803e-01 -413 4.487454e+06 4.994741e-01 -414 4.528976e+06 4.994678e-01 -415 4.570882e+06 4.994614e-01 -416 4.613176e+06 4.994549e-01 -417 4.655861e+06 4.994483e-01 -418 4.698941e+06 4.994415e-01 -419 4.742420e+06 4.994347e-01 -420 4.786301e+06 4.994277e-01 -421 4.830588e+06 4.994207e-01 -422 4.875285e+06 4.994135e-01 -423 4.920395e+06 4.994062e-01 -424 4.965923e+06 4.993987e-01 -425 5.011872e+06 4.993912e-01 -426 5.058247e+06 4.993835e-01 -427 5.105050e+06 4.993757e-01 -428 5.152286e+06 4.993678e-01 -429 5.199960e+06 4.993597e-01 -430 5.248075e+06 4.993515e-01 -431 5.296634e+06 4.993432e-01 -432 5.345644e+06 4.993347e-01 -433 5.395106e+06 4.993262e-01 -434 5.445027e+06 4.993174e-01 -435 5.495409e+06 4.993086e-01 -436 5.546257e+06 4.992995e-01 -437 5.597576e+06 4.992904e-01 -438 5.649370e+06 4.992811e-01 -439 5.701643e+06 4.992717e-01 -440 5.754399e+06 4.992621e-01 -441 5.807644e+06 4.992523e-01 -442 5.861382e+06 4.992424e-01 -443 5.915616e+06 4.992324e-01 -444 5.970353e+06 4.992221e-01 -445 6.025596e+06 4.992118e-01 -446 6.081350e+06 4.992012e-01 -447 6.137620e+06 4.991906e-01 -448 6.194411e+06 4.991797e-01 -449 6.251727e+06 4.991687e-01 -450 6.309573e+06 4.991575e-01 -451 6.367955e+06 4.991461e-01 -452 6.426877e+06 4.991346e-01 -453 6.486344e+06 4.991229e-01 -454 6.546362e+06 4.991110e-01 -455 6.606934e+06 4.990989e-01 -456 6.668068e+06 4.990866e-01 -457 6.729767e+06 4.990742e-01 -458 6.792036e+06 4.990616e-01 -459 6.854882e+06 4.990488e-01 -460 6.918310e+06 4.990358e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.990226e-01 -462 7.046931e+06 4.990092e-01 -463 7.112135e+06 4.989956e-01 -464 7.177943e+06 4.989819e-01 -465 7.244360e+06 4.989679e-01 -466 7.311391e+06 4.989537e-01 -467 7.379042e+06 4.989393e-01 -468 7.447320e+06 4.989247e-01 -469 7.516229e+06 4.989099e-01 -470 7.585776e+06 4.988949e-01 -471 7.655966e+06 4.988797e-01 -472 7.726806e+06 4.988643e-01 -473 7.798301e+06 4.988486e-01 -474 7.870458e+06 4.988327e-01 -475 7.943282e+06 4.988167e-01 -476 8.016781e+06 4.988003e-01 -477 8.090959e+06 4.987838e-01 -478 8.165824e+06 4.987670e-01 -479 8.241381e+06 4.987500e-01 -480 8.317638e+06 4.987328e-01 -481 8.394600e+06 4.987154e-01 -482 8.472274e+06 4.986977e-01 -483 8.550667e+06 4.986797e-01 -484 8.629785e+06 4.986616e-01 -485 8.709636e+06 4.986432e-01 -486 8.790225e+06 4.986245e-01 -487 8.871560e+06 4.986056e-01 -488 8.953648e+06 4.985865e-01 -489 9.036495e+06 4.985671e-01 -490 9.120108e+06 4.985475e-01 -491 9.204496e+06 4.985276e-01 -492 9.289664e+06 4.985074e-01 -493 9.375620e+06 4.984870e-01 -494 9.462372e+06 4.984663e-01 -495 9.549926e+06 4.984454e-01 -496 9.638290e+06 4.984242e-01 -497 9.727472e+06 4.984028e-01 -498 9.817479e+06 4.983811e-01 -499 9.908319e+06 4.983591e-01 -500 1.000000e+07 4.983369e-01 -501 1.009253e+07 4.983144e-01 -502 1.018591e+07 4.982916e-01 -503 1.028016e+07 4.982685e-01 -504 1.037528e+07 4.982452e-01 -505 1.047129e+07 4.982216e-01 -506 1.056818e+07 4.981977e-01 -507 1.066596e+07 4.981735e-01 -508 1.076465e+07 4.981491e-01 -509 1.086426e+07 4.981244e-01 -510 1.096478e+07 4.980994e-01 -511 1.106624e+07 4.980741e-01 -512 1.116863e+07 4.980485e-01 -513 1.127197e+07 4.980226e-01 -514 1.137627e+07 4.979964e-01 -515 1.148154e+07 4.979700e-01 -516 1.158777e+07 4.979432e-01 -517 1.169499e+07 4.979162e-01 -518 1.180321e+07 4.978889e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.978612e-01 -520 1.202264e+07 4.978333e-01 -521 1.213389e+07 4.978051e-01 -522 1.224616e+07 4.977765e-01 -523 1.235947e+07 4.977477e-01 -524 1.247384e+07 4.977186e-01 -525 1.258925e+07 4.976891e-01 -526 1.270574e+07 4.976594e-01 -527 1.282331e+07 4.976293e-01 -528 1.294196e+07 4.975990e-01 -529 1.306171e+07 4.975683e-01 -530 1.318257e+07 4.975373e-01 -531 1.330454e+07 4.975060e-01 -532 1.342765e+07 4.974744e-01 -533 1.355189e+07 4.974425e-01 -534 1.367729e+07 4.974103e-01 -535 1.380384e+07 4.973777e-01 -536 1.393157e+07 4.973448e-01 -537 1.406048e+07 4.973116e-01 -538 1.419058e+07 4.972781e-01 -539 1.432188e+07 4.972443e-01 -540 1.445440e+07 4.972101e-01 -541 1.458814e+07 4.971757e-01 -542 1.472313e+07 4.971409e-01 -543 1.485936e+07 4.971057e-01 -544 1.499685e+07 4.970703e-01 -545 1.513561e+07 4.970345e-01 -546 1.527566e+07 4.969983e-01 -547 1.541700e+07 4.969619e-01 -548 1.555966e+07 4.969251e-01 -549 1.570363e+07 4.968880e-01 -550 1.584893e+07 4.968505e-01 -551 1.599558e+07 4.968127e-01 -552 1.614359e+07 4.967745e-01 -553 1.629296e+07 4.967360e-01 -554 1.644372e+07 4.966972e-01 -555 1.659587e+07 4.966580e-01 -556 1.674943e+07 4.966185e-01 -557 1.690441e+07 4.965786e-01 -558 1.706082e+07 4.965384e-01 -559 1.721869e+07 4.964978e-01 -560 1.737801e+07 4.964569e-01 -561 1.753881e+07 4.964156e-01 -562 1.770109e+07 4.963739e-01 -563 1.786488e+07 4.963319e-01 -564 1.803018e+07 4.962896e-01 -565 1.819701e+07 4.962468e-01 -566 1.836538e+07 4.962037e-01 -567 1.853532e+07 4.961602e-01 -568 1.870682e+07 4.961164e-01 -569 1.887991e+07 4.960721e-01 -570 1.905461e+07 4.960275e-01 -571 1.923092e+07 4.959825e-01 -572 1.940886e+07 4.959372e-01 -573 1.958845e+07 4.958914e-01 -574 1.976970e+07 4.958452e-01 -575 1.995262e+07 4.957987e-01 -576 2.013724e+07 4.957518e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.957044e-01 -578 2.051162e+07 4.956567e-01 -579 2.070141e+07 4.956085e-01 -580 2.089296e+07 4.955600e-01 -581 2.108628e+07 4.955110e-01 -582 2.128139e+07 4.954617e-01 -583 2.147830e+07 4.954119e-01 -584 2.167704e+07 4.953617e-01 -585 2.187762e+07 4.953110e-01 -586 2.208005e+07 4.952600e-01 -587 2.228435e+07 4.952085e-01 -588 2.249055e+07 4.951565e-01 -589 2.269865e+07 4.951041e-01 -590 2.290868e+07 4.950513e-01 -591 2.312065e+07 4.949981e-01 -592 2.333458e+07 4.949443e-01 -593 2.355049e+07 4.948902e-01 -594 2.376840e+07 4.948355e-01 -595 2.398833e+07 4.947804e-01 -596 2.421029e+07 4.947249e-01 -597 2.443431e+07 4.946689e-01 -598 2.466039e+07 4.946123e-01 -599 2.488857e+07 4.945554e-01 -600 2.511886e+07 4.944979e-01 -601 2.535129e+07 4.944399e-01 -602 2.558586e+07 4.943815e-01 -603 2.582260e+07 4.943225e-01 -604 2.606154e+07 4.942631e-01 -605 2.630268e+07 4.942031e-01 -606 2.654606e+07 4.941426e-01 -607 2.679168e+07 4.940817e-01 -608 2.703958e+07 4.940202e-01 -609 2.728978e+07 4.939582e-01 -610 2.754229e+07 4.938956e-01 -611 2.779713e+07 4.938325e-01 -612 2.805434e+07 4.937689e-01 -613 2.831392e+07 4.937048e-01 -614 2.857591e+07 4.936401e-01 -615 2.884032e+07 4.935749e-01 -616 2.910717e+07 4.935092e-01 -617 2.937650e+07 4.934428e-01 -618 2.964831e+07 4.933760e-01 -619 2.992265e+07 4.933086e-01 -620 3.019952e+07 4.932406e-01 -621 3.047895e+07 4.931721e-01 -622 3.076097e+07 4.931030e-01 -623 3.104560e+07 4.930333e-01 -624 3.133286e+07 4.929631e-01 -625 3.162278e+07 4.928923e-01 -626 3.191538e+07 4.928209e-01 -627 3.221069e+07 4.927490e-01 -628 3.250873e+07 4.926765e-01 -629 3.280953e+07 4.926034e-01 -630 3.311311e+07 4.925297e-01 -631 3.341950e+07 4.924555e-01 -632 3.372873e+07 4.923807e-01 -633 3.404082e+07 4.923054e-01 -634 3.435579e+07 4.922294e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.921529e-01 -636 3.499452e+07 4.920759e-01 -637 3.531832e+07 4.919982e-01 -638 3.564511e+07 4.919200e-01 -639 3.597493e+07 4.918413e-01 -640 3.630781e+07 4.917620e-01 -641 3.664376e+07 4.916822e-01 -642 3.698282e+07 4.916018e-01 -643 3.732502e+07 4.915209e-01 -644 3.767038e+07 4.914394e-01 -645 3.801894e+07 4.913574e-01 -646 3.837072e+07 4.912749e-01 -647 3.872576e+07 4.911919e-01 -648 3.908409e+07 4.911084e-01 -649 3.944573e+07 4.910244e-01 -650 3.981072e+07 4.909400e-01 -651 4.017908e+07 4.908550e-01 -652 4.055085e+07 4.907697e-01 -653 4.092607e+07 4.906838e-01 -654 4.130475e+07 4.905976e-01 -655 4.168694e+07 4.905109e-01 -656 4.207266e+07 4.904238e-01 -657 4.246196e+07 4.903364e-01 -658 4.285485e+07 4.902486e-01 -659 4.325138e+07 4.901604e-01 -660 4.365158e+07 4.900719e-01 -661 4.405549e+07 4.899831e-01 -662 4.446313e+07 4.898940e-01 -663 4.487454e+07 4.898047e-01 -664 4.528976e+07 4.897151e-01 -665 4.570882e+07 4.896253e-01 -666 4.613176e+07 4.895354e-01 -667 4.655861e+07 4.894452e-01 -668 4.698941e+07 4.893550e-01 -669 4.742420e+07 4.892646e-01 -670 4.786301e+07 4.891742e-01 -671 4.830588e+07 4.890837e-01 -672 4.875285e+07 4.889933e-01 -673 4.920395e+07 4.889028e-01 -674 4.965923e+07 4.888125e-01 -675 5.011872e+07 4.887222e-01 -676 5.058247e+07 4.886322e-01 -677 5.105050e+07 4.885423e-01 -678 5.152286e+07 4.884526e-01 -679 5.199960e+07 4.883632e-01 -680 5.248075e+07 4.882742e-01 -681 5.296634e+07 4.881855e-01 -682 5.345644e+07 4.880972e-01 -683 5.395106e+07 4.880094e-01 -684 5.445027e+07 4.879222e-01 -685 5.495409e+07 4.878355e-01 -686 5.546257e+07 4.877495e-01 -687 5.597576e+07 4.876642e-01 -688 5.649370e+07 4.875796e-01 -689 5.701643e+07 4.874958e-01 -690 5.754399e+07 4.874129e-01 -691 5.807644e+07 4.873310e-01 -692 5.861382e+07 4.872500e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.871702e-01 -694 5.970353e+07 4.870915e-01 -695 6.025596e+07 4.870140e-01 -696 6.081350e+07 4.869378e-01 -697 6.137620e+07 4.868629e-01 -698 6.194411e+07 4.867896e-01 -699 6.251727e+07 4.867177e-01 -700 6.309573e+07 4.866474e-01 -701 6.367955e+07 4.865788e-01 -702 6.426877e+07 4.865120e-01 -703 6.486344e+07 4.864470e-01 -704 6.546362e+07 4.863839e-01 -705 6.606934e+07 4.863229e-01 -706 6.668068e+07 4.862639e-01 -707 6.729767e+07 4.862072e-01 -708 6.792036e+07 4.861527e-01 -709 6.854882e+07 4.861006e-01 -710 6.918310e+07 4.860510e-01 -711 6.982324e+07 4.860039e-01 -712 7.046931e+07 4.859594e-01 -713 7.112135e+07 4.859177e-01 -714 7.177943e+07 4.858789e-01 -715 7.244360e+07 4.858429e-01 -716 7.311391e+07 4.858100e-01 -717 7.379042e+07 4.857801e-01 -718 7.447320e+07 4.857535e-01 -719 7.516229e+07 4.857302e-01 -720 7.585776e+07 4.857103e-01 -721 7.655966e+07 4.856938e-01 -722 7.726806e+07 4.856809e-01 -723 7.798301e+07 4.856717e-01 -724 7.870458e+07 4.856662e-01 -725 7.943282e+07 4.856645e-01 -726 8.016781e+07 4.856668e-01 -727 8.090959e+07 4.856730e-01 -728 8.165824e+07 4.856833e-01 -729 8.241381e+07 4.856977e-01 -730 8.317638e+07 4.857163e-01 -731 8.394600e+07 4.857393e-01 -732 8.472274e+07 4.857665e-01 -733 8.550667e+07 4.857981e-01 -734 8.629785e+07 4.858342e-01 -735 8.709636e+07 4.858748e-01 -736 8.790225e+07 4.859199e-01 -737 8.871560e+07 4.859695e-01 -738 8.953648e+07 4.860238e-01 -739 9.036495e+07 4.860826e-01 -740 9.120108e+07 4.861461e-01 -741 9.204496e+07 4.862142e-01 -742 9.289664e+07 4.862869e-01 -743 9.375620e+07 4.863642e-01 -744 9.462372e+07 4.864461e-01 -745 9.549926e+07 4.865326e-01 -746 9.638290e+07 4.866235e-01 -747 9.727472e+07 4.867189e-01 -748 9.817479e+07 4.868186e-01 -749 9.908319e+07 4.869226e-01 -750 1.000000e+08 4.870308e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.871431e-01 -752 1.018591e+08 4.872593e-01 -753 1.028016e+08 4.873793e-01 -754 1.037528e+08 4.875029e-01 -755 1.047129e+08 4.876300e-01 -756 1.056818e+08 4.877604e-01 -757 1.066596e+08 4.878938e-01 -758 1.076465e+08 4.880301e-01 -759 1.086426e+08 4.881689e-01 -760 1.096478e+08 4.883101e-01 -761 1.106624e+08 4.884533e-01 -762 1.116863e+08 4.885982e-01 -763 1.127197e+08 4.887445e-01 -764 1.137627e+08 4.888918e-01 -765 1.148154e+08 4.890399e-01 -766 1.158777e+08 4.891882e-01 -767 1.169499e+08 4.893365e-01 -768 1.180321e+08 4.894842e-01 -769 1.191242e+08 4.896309e-01 -770 1.202264e+08 4.897761e-01 -771 1.213389e+08 4.899194e-01 -772 1.224616e+08 4.900603e-01 -773 1.235947e+08 4.901982e-01 -774 1.247384e+08 4.903325e-01 -775 1.258925e+08 4.904628e-01 -776 1.270574e+08 4.905884e-01 -777 1.282331e+08 4.907088e-01 -778 1.294196e+08 4.908233e-01 -779 1.306171e+08 4.909313e-01 -780 1.318257e+08 4.910323e-01 -781 1.330454e+08 4.911255e-01 -782 1.342765e+08 4.912105e-01 -783 1.355189e+08 4.912864e-01 -784 1.367729e+08 4.913527e-01 -785 1.380384e+08 4.914088e-01 -786 1.393157e+08 4.914541e-01 -787 1.406048e+08 4.914879e-01 -788 1.419058e+08 4.915096e-01 -789 1.432188e+08 4.915187e-01 -790 1.445440e+08 4.915146e-01 -791 1.458814e+08 4.914967e-01 -792 1.472313e+08 4.914646e-01 -793 1.485936e+08 4.914179e-01 -794 1.499685e+08 4.913560e-01 -795 1.513561e+08 4.912786e-01 -796 1.527566e+08 4.911854e-01 -797 1.541700e+08 4.910761e-01 -798 1.555966e+08 4.909504e-01 -799 1.570363e+08 4.908082e-01 -800 1.584893e+08 4.906494e-01 -801 1.599558e+08 4.904741e-01 -802 1.614359e+08 4.902821e-01 -803 1.629296e+08 4.900737e-01 -804 1.644372e+08 4.898491e-01 -805 1.659587e+08 4.896086e-01 -806 1.674943e+08 4.893525e-01 -807 1.690441e+08 4.890814e-01 -808 1.706082e+08 4.887958e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.884964e-01 -810 1.737801e+08 4.881840e-01 -811 1.753881e+08 4.878595e-01 -812 1.770109e+08 4.875237e-01 -813 1.786488e+08 4.871778e-01 -814 1.803018e+08 4.868229e-01 -815 1.819701e+08 4.864603e-01 -816 1.836538e+08 4.860914e-01 -817 1.853532e+08 4.857174e-01 -818 1.870682e+08 4.853401e-01 -819 1.887991e+08 4.849608e-01 -820 1.905461e+08 4.845814e-01 -821 1.923092e+08 4.842036e-01 -822 1.940886e+08 4.838290e-01 -823 1.958845e+08 4.834596e-01 -824 1.976970e+08 4.830972e-01 -825 1.995262e+08 4.827438e-01 -826 2.013724e+08 4.824011e-01 -827 2.032357e+08 4.820713e-01 -828 2.051162e+08 4.817561e-01 -829 2.070141e+08 4.814575e-01 -830 2.089296e+08 4.811774e-01 -831 2.108628e+08 4.809175e-01 -832 2.128139e+08 4.806797e-01 -833 2.147830e+08 4.804656e-01 -834 2.167704e+08 4.802767e-01 -835 2.187762e+08 4.801146e-01 -836 2.208005e+08 4.799805e-01 -837 2.228435e+08 4.798758e-01 -838 2.249055e+08 4.798013e-01 -839 2.269865e+08 4.797580e-01 -840 2.290868e+08 4.797464e-01 -841 2.312065e+08 4.797669e-01 -842 2.333458e+08 4.798198e-01 -843 2.355049e+08 4.799049e-01 -844 2.376840e+08 4.800218e-01 -845 2.398833e+08 4.801699e-01 -846 2.421029e+08 4.803483e-01 -847 2.443431e+08 4.805555e-01 -848 2.466039e+08 4.807899e-01 -849 2.488857e+08 4.810497e-01 -850 2.511886e+08 4.813324e-01 -851 2.535129e+08 4.816354e-01 -852 2.558586e+08 4.819556e-01 -853 2.582260e+08 4.822898e-01 -854 2.606154e+08 4.826342e-01 -855 2.630268e+08 4.829848e-01 -856 2.654606e+08 4.833373e-01 -857 2.679168e+08 4.836872e-01 -858 2.703958e+08 4.840297e-01 -859 2.728978e+08 4.843599e-01 -860 2.754229e+08 4.846729e-01 -861 2.779713e+08 4.849634e-01 -862 2.805434e+08 4.852265e-01 -863 2.831392e+08 4.854572e-01 -864 2.857591e+08 4.856507e-01 -865 2.884032e+08 4.858026e-01 -866 2.910717e+08 4.859086e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.859652e-01 -868 2.964831e+08 4.859690e-01 -869 2.992265e+08 4.859177e-01 -870 3.019952e+08 4.858095e-01 -871 3.047895e+08 4.856432e-01 -872 3.076097e+08 4.854189e-01 -873 3.104560e+08 4.851373e-01 -874 3.133286e+08 4.848000e-01 -875 3.162278e+08 4.844098e-01 -876 3.191538e+08 4.839704e-01 -877 3.221069e+08 4.834864e-01 -878 3.250873e+08 4.829634e-01 -879 3.280953e+08 4.824078e-01 -880 3.311311e+08 4.818268e-01 -881 3.341950e+08 4.812284e-01 -882 3.372873e+08 4.806211e-01 -883 3.404082e+08 4.800139e-01 -884 3.435579e+08 4.794162e-01 -885 3.467369e+08 4.788373e-01 -886 3.499452e+08 4.782868e-01 -887 3.531832e+08 4.777740e-01 -888 3.564511e+08 4.773079e-01 -889 3.597493e+08 4.768971e-01 -890 3.630781e+08 4.765493e-01 -891 3.664376e+08 4.762714e-01 -892 3.698282e+08 4.760693e-01 -893 3.732502e+08 4.759478e-01 -894 3.767038e+08 4.759100e-01 -895 3.801894e+08 4.759577e-01 -896 3.837072e+08 4.760910e-01 -897 3.872576e+08 4.763083e-01 -898 3.908409e+08 4.766058e-01 -899 3.944573e+08 4.769780e-01 -900 3.981072e+08 4.774173e-01 -901 4.017908e+08 4.779143e-01 -902 4.055085e+08 4.784574e-01 -903 4.092607e+08 4.790334e-01 -904 4.130475e+08 4.796274e-01 -905 4.168694e+08 4.802233e-01 -906 4.207266e+08 4.808037e-01 -907 4.246196e+08 4.813511e-01 -908 4.285485e+08 4.818476e-01 -909 4.325138e+08 4.822758e-01 -910 4.365158e+08 4.826196e-01 -911 4.405549e+08 4.828646e-01 -912 4.446313e+08 4.829987e-01 -913 4.487454e+08 4.830128e-01 -914 4.528976e+08 4.829016e-01 -915 4.570882e+08 4.826634e-01 -916 4.613176e+08 4.823010e-01 -917 4.655861e+08 4.818215e-01 -918 4.698941e+08 4.812366e-01 -919 4.742420e+08 4.805619e-01 -920 4.786301e+08 4.798168e-01 -921 4.830588e+08 4.790239e-01 -922 4.875285e+08 4.782083e-01 -923 4.920395e+08 4.773967e-01 -924 4.965923e+08 4.766163e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.758945e-01 -926 5.058247e+08 4.752572e-01 -927 5.105050e+08 4.747280e-01 -928 5.152286e+08 4.743276e-01 -929 5.199960e+08 4.740726e-01 -930 5.248075e+08 4.739748e-01 -931 5.296634e+08 4.740406e-01 -932 5.345644e+08 4.742699e-01 -933 5.395106e+08 4.746564e-01 -934 5.445027e+08 4.751869e-01 -935 5.495409e+08 4.758412e-01 -936 5.546257e+08 4.765926e-01 -937 5.597576e+08 4.774084e-01 -938 5.649370e+08 4.782506e-01 -939 5.701643e+08 4.790779e-01 -940 5.754399e+08 4.798469e-01 -941 5.807644e+08 4.805147e-01 -942 5.861382e+08 4.810411e-01 -943 5.915616e+08 4.813915e-01 -944 5.970353e+08 4.815394e-01 -945 6.025596e+08 4.814686e-01 -946 6.081350e+08 4.811751e-01 -947 6.137620e+08 4.806679e-01 -948 6.194411e+08 4.799693e-01 -949 6.251727e+08 4.791142e-01 -950 6.309573e+08 4.781481e-01 -951 6.367955e+08 4.771244e-01 -952 6.426877e+08 4.761018e-01 -953 6.486344e+08 4.751406e-01 -954 6.546362e+08 4.742989e-01 -955 6.606934e+08 4.736292e-01 -956 6.668068e+08 4.731754e-01 -957 6.729767e+08 4.729693e-01 -958 6.792036e+08 4.730287e-01 -959 6.854882e+08 4.733549e-01 -960 6.918310e+08 4.739319e-01 -961 6.982324e+08 4.747259e-01 -962 7.046931e+08 4.756857e-01 -963 7.112135e+08 4.767448e-01 -964 7.177943e+08 4.778251e-01 -965 7.244360e+08 4.788411e-01 -966 7.311391e+08 4.797072e-01 -967 7.379042e+08 4.803449e-01 -968 7.447320e+08 4.806907e-01 -969 7.516229e+08 4.807037e-01 -970 7.585776e+08 4.803711e-01 -971 7.655966e+08 4.797116e-01 -972 7.726806e+08 4.787749e-01 -973 7.798301e+08 4.776383e-01 -974 7.870458e+08 4.763998e-01 -975 7.943282e+08 4.751692e-01 -976 8.016781e+08 4.740582e-01 -977 8.090959e+08 4.731704e-01 -978 8.165824e+08 4.725913e-01 -979 8.241381e+08 4.723810e-01 -980 8.317638e+08 4.725670e-01 -981 8.394600e+08 4.731402e-01 -982 8.472274e+08 4.740527e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.752192e-01 -984 8.629785e+08 4.765215e-01 -985 8.709636e+08 4.778183e-01 -986 8.790225e+08 4.789588e-01 -987 8.871560e+08 4.798003e-01 -988 8.953648e+08 4.802284e-01 -989 9.036495e+08 4.801748e-01 -990 9.120108e+08 4.796309e-01 -991 9.204496e+08 4.786523e-01 -992 9.289664e+08 4.773541e-01 -993 9.375620e+08 4.758967e-01 -994 9.462372e+08 4.744647e-01 -995 9.549926e+08 4.732430e-01 -996 9.638290e+08 4.723933e-01 -997 9.727472e+08 4.720333e-01 -998 9.817479e+08 4.722211e-01 -999 9.908319e+08 4.729443e-01 -1000 1.000000e+09 4.741166e-01 - -CPU time since last call: 0.040 seconds. - -Total CPU time: 0.040 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4836.789062 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 771.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec deleted file mode 100644 index 1574364..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901019_V14 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec deleted file mode 100644 index 0f180f2..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/TP_AWG_20_ESCC_3901019_V14_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901019_V14_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/analytic_solution.dat_reference deleted file mode 100644 index 88ed7e1..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49967913174518530 -2.6248892206746119E-003 - 100926.21909870484 0.49967823061629885 -2.6484178697546738E-003 - 101861.01701559752 0.49967731837036466 -2.6721480461082800E-003 - 102804.47320933097 0.49967639494998667 -2.6960813562600088E-003 - 103756.66787451849 0.49967546029970683 -2.7202194205191753E-003 - 104717.68194855202 0.49967451436606286 -2.7445638732197710E-003 - 105687.59711848051 0.49967355709763950 -2.7691163629649492E-003 - 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831610415.32309616 0.46097715671494066 1.3964723430109849 - 839312949.81663728 0.46268476200615732 1.2414723917475459 - 847086826.65574193 0.46530415362079253 1.0835079916772905 - 854932706.62683666 0.46861051510451746 0.92197191126736577 - 862851256.63668871 0.47228403700831545 0.75642184287423875 - 870843149.76907241 0.47592607077515231 0.58665411711667526 - 878909065.34199631 0.47909438965472301 0.41276635300714720 - 887049688.96544206 0.48135965625197491 0.23519016359526071 - 895265712.59963822 0.48237702006260219 5.4673663466783838E-002 - 903557834.61389208 0.48195678547664766 -0.12779853457901710 - 911926759.84592986 0.48011225829334148 -0.31114241918327451 - 920373199.66182303 0.47706703635992553 -0.49434251443855920 - 928897872.01645172 0.47321810323479202 -0.67661177127685224 - 937501501.51452708 0.46906737348253857 -0.85750796801076778 - 946184819.47219920 0.46514313795422751 -1.0369882322336283 - 954948563.97919667 0.46193042452074190 -1.2154034140496113 - 963793479.96157956 0.45981964645806050 -1.3934470026911590 - 972720319.24505568 0.45907300478709662 -1.5720755402202278 - 981729840.61888206 0.45980258146076547 -1.7524118850587360 - 990822809.90037870 0.46195393700516818 -1.9356345318801040 - 1000000000.0000000 0.46529332541370727 -2.1228503407374877 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/result_comparison.dat_reference deleted file mode 100644 index a8cfa65..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00160707 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/spice_solution.dat_reference deleted file mode 100644 index 64cf541..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:47:22 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.998243e-01 -1 1.009253e+05 4.998243e-01 -2 1.018591e+05 4.998243e-01 -3 1.028016e+05 4.998243e-01 -4 1.037528e+05 4.998243e-01 -5 1.047129e+05 4.998243e-01 -6 1.056818e+05 4.998243e-01 -7 1.066596e+05 4.998243e-01 -8 1.076465e+05 4.998243e-01 -9 1.086426e+05 4.998242e-01 -10 1.096478e+05 4.998242e-01 -11 1.106624e+05 4.998242e-01 -12 1.116863e+05 4.998242e-01 -13 1.127197e+05 4.998242e-01 -14 1.137627e+05 4.998242e-01 -15 1.148154e+05 4.998242e-01 -16 1.158777e+05 4.998242e-01 -17 1.169499e+05 4.998242e-01 -18 1.180321e+05 4.998242e-01 -19 1.191242e+05 4.998242e-01 -20 1.202264e+05 4.998242e-01 -21 1.213389e+05 4.998242e-01 -22 1.224616e+05 4.998242e-01 -23 1.235947e+05 4.998242e-01 -24 1.247384e+05 4.998242e-01 -25 1.258925e+05 4.998241e-01 -26 1.270574e+05 4.998241e-01 -27 1.282331e+05 4.998241e-01 -28 1.294196e+05 4.998241e-01 -29 1.306171e+05 4.998241e-01 -30 1.318257e+05 4.998241e-01 -31 1.330454e+05 4.998241e-01 -32 1.342765e+05 4.998241e-01 -33 1.355189e+05 4.998241e-01 -34 1.367729e+05 4.998241e-01 -35 1.380384e+05 4.998241e-01 -36 1.393157e+05 4.998241e-01 -37 1.406048e+05 4.998240e-01 -38 1.419058e+05 4.998240e-01 -39 1.432188e+05 4.998240e-01 -40 1.445440e+05 4.998240e-01 -41 1.458814e+05 4.998240e-01 -42 1.472313e+05 4.998240e-01 -43 1.485936e+05 4.998240e-01 -44 1.499685e+05 4.998240e-01 -45 1.513561e+05 4.998240e-01 -46 1.527566e+05 4.998240e-01 -47 1.541700e+05 4.998239e-01 -48 1.555966e+05 4.998239e-01 -49 1.570363e+05 4.998239e-01 -50 1.584893e+05 4.998239e-01 -51 1.599558e+05 4.998239e-01 -52 1.614359e+05 4.998239e-01 -53 1.629296e+05 4.998239e-01 -54 1.644372e+05 4.998239e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.998238e-01 -56 1.674943e+05 4.998238e-01 -57 1.690441e+05 4.998238e-01 -58 1.706082e+05 4.998238e-01 -59 1.721869e+05 4.998238e-01 -60 1.737801e+05 4.998238e-01 -61 1.753881e+05 4.998238e-01 -62 1.770109e+05 4.998237e-01 -63 1.786488e+05 4.998237e-01 -64 1.803018e+05 4.998237e-01 -65 1.819701e+05 4.998237e-01 -66 1.836538e+05 4.998237e-01 -67 1.853532e+05 4.998237e-01 -68 1.870682e+05 4.998237e-01 -69 1.887991e+05 4.998236e-01 -70 1.905461e+05 4.998236e-01 -71 1.923092e+05 4.998236e-01 -72 1.940886e+05 4.998236e-01 -73 1.958845e+05 4.998236e-01 -74 1.976970e+05 4.998235e-01 -75 1.995262e+05 4.998235e-01 -76 2.013724e+05 4.998235e-01 -77 2.032357e+05 4.998235e-01 -78 2.051162e+05 4.998235e-01 -79 2.070141e+05 4.998235e-01 -80 2.089296e+05 4.998234e-01 -81 2.108628e+05 4.998234e-01 -82 2.128139e+05 4.998234e-01 -83 2.147830e+05 4.998234e-01 -84 2.167704e+05 4.998233e-01 -85 2.187762e+05 4.998233e-01 -86 2.208005e+05 4.998233e-01 -87 2.228435e+05 4.998233e-01 -88 2.249055e+05 4.998233e-01 -89 2.269865e+05 4.998232e-01 -90 2.290868e+05 4.998232e-01 -91 2.312065e+05 4.998232e-01 -92 2.333458e+05 4.998232e-01 -93 2.355049e+05 4.998231e-01 -94 2.376840e+05 4.998231e-01 -95 2.398833e+05 4.998231e-01 -96 2.421029e+05 4.998230e-01 -97 2.443431e+05 4.998230e-01 -98 2.466039e+05 4.998230e-01 -99 2.488857e+05 4.998230e-01 -100 2.511886e+05 4.998229e-01 -101 2.535129e+05 4.998229e-01 -102 2.558586e+05 4.998229e-01 -103 2.582260e+05 4.998228e-01 -104 2.606154e+05 4.998228e-01 -105 2.630268e+05 4.998228e-01 -106 2.654606e+05 4.998227e-01 -107 2.679168e+05 4.998227e-01 -108 2.703958e+05 4.998227e-01 -109 2.728978e+05 4.998226e-01 -110 2.754229e+05 4.998226e-01 -111 2.779713e+05 4.998226e-01 -112 2.805434e+05 4.998225e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.998225e-01 -114 2.857591e+05 4.998225e-01 -115 2.884032e+05 4.998224e-01 -116 2.910717e+05 4.998224e-01 -117 2.937650e+05 4.998223e-01 -118 2.964831e+05 4.998223e-01 -119 2.992265e+05 4.998223e-01 -120 3.019952e+05 4.998222e-01 -121 3.047895e+05 4.998222e-01 -122 3.076097e+05 4.998221e-01 -123 3.104560e+05 4.998221e-01 -124 3.133286e+05 4.998220e-01 -125 3.162278e+05 4.998220e-01 -126 3.191538e+05 4.998219e-01 -127 3.221069e+05 4.998219e-01 -128 3.250873e+05 4.998218e-01 -129 3.280953e+05 4.998218e-01 -130 3.311311e+05 4.998217e-01 -131 3.341950e+05 4.998217e-01 -132 3.372873e+05 4.998216e-01 -133 3.404082e+05 4.998216e-01 -134 3.435579e+05 4.998215e-01 -135 3.467369e+05 4.998215e-01 -136 3.499452e+05 4.998214e-01 -137 3.531832e+05 4.998214e-01 -138 3.564511e+05 4.998213e-01 -139 3.597493e+05 4.998212e-01 -140 3.630781e+05 4.998212e-01 -141 3.664376e+05 4.998211e-01 -142 3.698282e+05 4.998210e-01 -143 3.732502e+05 4.998210e-01 -144 3.767038e+05 4.998209e-01 -145 3.801894e+05 4.998208e-01 -146 3.837072e+05 4.998208e-01 -147 3.872576e+05 4.998207e-01 -148 3.908409e+05 4.998206e-01 -149 3.944573e+05 4.998206e-01 -150 3.981072e+05 4.998205e-01 -151 4.017908e+05 4.998204e-01 -152 4.055085e+05 4.998203e-01 -153 4.092607e+05 4.998203e-01 -154 4.130475e+05 4.998202e-01 -155 4.168694e+05 4.998201e-01 -156 4.207266e+05 4.998200e-01 -157 4.246196e+05 4.998199e-01 -158 4.285485e+05 4.998198e-01 -159 4.325138e+05 4.998198e-01 -160 4.365158e+05 4.998197e-01 -161 4.405549e+05 4.998196e-01 -162 4.446313e+05 4.998195e-01 -163 4.487454e+05 4.998194e-01 -164 4.528976e+05 4.998193e-01 -165 4.570882e+05 4.998192e-01 -166 4.613176e+05 4.998191e-01 -167 4.655861e+05 4.998190e-01 -168 4.698941e+05 4.998189e-01 -169 4.742420e+05 4.998188e-01 -170 4.786301e+05 4.998187e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.998186e-01 -172 4.875285e+05 4.998185e-01 -173 4.920395e+05 4.998183e-01 -174 4.965923e+05 4.998182e-01 -175 5.011872e+05 4.998181e-01 -176 5.058247e+05 4.998180e-01 -177 5.105050e+05 4.998179e-01 -178 5.152286e+05 4.998177e-01 -179 5.199960e+05 4.998176e-01 -180 5.248075e+05 4.998175e-01 -181 5.296634e+05 4.998174e-01 -182 5.345644e+05 4.998172e-01 -183 5.395106e+05 4.998171e-01 -184 5.445027e+05 4.998170e-01 -185 5.495409e+05 4.998168e-01 -186 5.546257e+05 4.998167e-01 -187 5.597576e+05 4.998165e-01 -188 5.649370e+05 4.998164e-01 -189 5.701643e+05 4.998162e-01 -190 5.754399e+05 4.998161e-01 -191 5.807644e+05 4.998159e-01 -192 5.861382e+05 4.998157e-01 -193 5.915616e+05 4.998156e-01 -194 5.970353e+05 4.998154e-01 -195 6.025596e+05 4.998152e-01 -196 6.081350e+05 4.998151e-01 -197 6.137620e+05 4.998149e-01 -198 6.194411e+05 4.998147e-01 -199 6.251727e+05 4.998145e-01 -200 6.309573e+05 4.998144e-01 -201 6.367955e+05 4.998142e-01 -202 6.426877e+05 4.998140e-01 -203 6.486344e+05 4.998138e-01 -204 6.546362e+05 4.998136e-01 -205 6.606934e+05 4.998134e-01 -206 6.668068e+05 4.998132e-01 -207 6.729767e+05 4.998130e-01 -208 6.792036e+05 4.998127e-01 -209 6.854882e+05 4.998125e-01 -210 6.918310e+05 4.998123e-01 -211 6.982324e+05 4.998121e-01 -212 7.046931e+05 4.998118e-01 -213 7.112135e+05 4.998116e-01 -214 7.177943e+05 4.998114e-01 -215 7.244360e+05 4.998111e-01 -216 7.311391e+05 4.998109e-01 -217 7.379042e+05 4.998106e-01 -218 7.447320e+05 4.998103e-01 -219 7.516229e+05 4.998101e-01 -220 7.585776e+05 4.998098e-01 -221 7.655966e+05 4.998095e-01 -222 7.726806e+05 4.998093e-01 -223 7.798301e+05 4.998090e-01 -224 7.870458e+05 4.998087e-01 -225 7.943282e+05 4.998084e-01 -226 8.016781e+05 4.998081e-01 -227 8.090959e+05 4.998078e-01 -228 8.165824e+05 4.998075e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.998072e-01 -230 8.317638e+05 4.998068e-01 -231 8.394600e+05 4.998065e-01 -232 8.472274e+05 4.998062e-01 -233 8.550667e+05 4.998058e-01 -234 8.629785e+05 4.998055e-01 -235 8.709636e+05 4.998051e-01 -236 8.790225e+05 4.998048e-01 -237 8.871560e+05 4.998044e-01 -238 8.953648e+05 4.998040e-01 -239 9.036495e+05 4.998037e-01 -240 9.120108e+05 4.998033e-01 -241 9.204496e+05 4.998029e-01 -242 9.289664e+05 4.998025e-01 -243 9.375620e+05 4.998021e-01 -244 9.462372e+05 4.998016e-01 -245 9.549926e+05 4.998012e-01 -246 9.638290e+05 4.998008e-01 -247 9.727472e+05 4.998003e-01 -248 9.817479e+05 4.997999e-01 -249 9.908319e+05 4.997994e-01 -250 1.000000e+06 4.997990e-01 -251 1.009253e+06 4.997985e-01 -252 1.018591e+06 4.997980e-01 -253 1.028016e+06 4.997975e-01 -254 1.037528e+06 4.997970e-01 -255 1.047129e+06 4.997965e-01 -256 1.056818e+06 4.997960e-01 -257 1.066596e+06 4.997955e-01 -258 1.076465e+06 4.997949e-01 -259 1.086426e+06 4.997944e-01 -260 1.096478e+06 4.997938e-01 -261 1.106624e+06 4.997932e-01 -262 1.116863e+06 4.997927e-01 -263 1.127197e+06 4.997921e-01 -264 1.137627e+06 4.997915e-01 -265 1.148154e+06 4.997908e-01 -266 1.158777e+06 4.997902e-01 -267 1.169499e+06 4.997896e-01 -268 1.180321e+06 4.997889e-01 -269 1.191242e+06 4.997883e-01 -270 1.202264e+06 4.997876e-01 -271 1.213389e+06 4.997869e-01 -272 1.224616e+06 4.997862e-01 -273 1.235947e+06 4.997855e-01 -274 1.247384e+06 4.997848e-01 -275 1.258925e+06 4.997840e-01 -276 1.270574e+06 4.997833e-01 -277 1.282331e+06 4.997825e-01 -278 1.294196e+06 4.997818e-01 -279 1.306171e+06 4.997810e-01 -280 1.318257e+06 4.997802e-01 -281 1.330454e+06 4.997793e-01 -282 1.342765e+06 4.997785e-01 -283 1.355189e+06 4.997776e-01 -284 1.367729e+06 4.997768e-01 -285 1.380384e+06 4.997759e-01 -286 1.393157e+06 4.997750e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.997741e-01 -288 1.419058e+06 4.997731e-01 -289 1.432188e+06 4.997722e-01 -290 1.445440e+06 4.997712e-01 -291 1.458814e+06 4.997702e-01 -292 1.472313e+06 4.997692e-01 -293 1.485936e+06 4.997682e-01 -294 1.499685e+06 4.997671e-01 -295 1.513561e+06 4.997661e-01 -296 1.527566e+06 4.997650e-01 -297 1.541700e+06 4.997639e-01 -298 1.555966e+06 4.997628e-01 -299 1.570363e+06 4.997616e-01 -300 1.584893e+06 4.997605e-01 -301 1.599558e+06 4.997593e-01 -302 1.614359e+06 4.997581e-01 -303 1.629296e+06 4.997568e-01 -304 1.644372e+06 4.997556e-01 -305 1.659587e+06 4.997543e-01 -306 1.674943e+06 4.997530e-01 -307 1.690441e+06 4.997517e-01 -308 1.706082e+06 4.997504e-01 -309 1.721869e+06 4.997490e-01 -310 1.737801e+06 4.997476e-01 -311 1.753881e+06 4.997462e-01 -312 1.770109e+06 4.997447e-01 -313 1.786488e+06 4.997432e-01 -314 1.803018e+06 4.997417e-01 -315 1.819701e+06 4.997402e-01 -316 1.836538e+06 4.997386e-01 -317 1.853532e+06 4.997371e-01 -318 1.870682e+06 4.997354e-01 -319 1.887991e+06 4.997338e-01 -320 1.905461e+06 4.997321e-01 -321 1.923092e+06 4.997304e-01 -322 1.940886e+06 4.997287e-01 -323 1.958845e+06 4.997269e-01 -324 1.976970e+06 4.997251e-01 -325 1.995262e+06 4.997233e-01 -326 2.013724e+06 4.997214e-01 -327 2.032357e+06 4.997195e-01 -328 2.051162e+06 4.997176e-01 -329 2.070141e+06 4.997156e-01 -330 2.089296e+06 4.997136e-01 -331 2.108628e+06 4.997115e-01 -332 2.128139e+06 4.997095e-01 -333 2.147830e+06 4.997073e-01 -334 2.167704e+06 4.997052e-01 -335 2.187762e+06 4.997030e-01 -336 2.208005e+06 4.997007e-01 -337 2.228435e+06 4.996985e-01 -338 2.249055e+06 4.996961e-01 -339 2.269865e+06 4.996938e-01 -340 2.290868e+06 4.996914e-01 -341 2.312065e+06 4.996889e-01 -342 2.333458e+06 4.996864e-01 -343 2.355049e+06 4.996839e-01 -344 2.376840e+06 4.996813e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.996787e-01 -346 2.421029e+06 4.996760e-01 -347 2.443431e+06 4.996732e-01 -348 2.466039e+06 4.996705e-01 -349 2.488857e+06 4.996676e-01 -350 2.511886e+06 4.996647e-01 -351 2.535129e+06 4.996618e-01 -352 2.558586e+06 4.996588e-01 -353 2.582260e+06 4.996558e-01 -354 2.606154e+06 4.996527e-01 -355 2.630268e+06 4.996495e-01 -356 2.654606e+06 4.996463e-01 -357 2.679168e+06 4.996430e-01 -358 2.703958e+06 4.996397e-01 -359 2.728978e+06 4.996363e-01 -360 2.754229e+06 4.996329e-01 -361 2.779713e+06 4.996294e-01 -362 2.805434e+06 4.996258e-01 -363 2.831392e+06 4.996222e-01 -364 2.857591e+06 4.996184e-01 -365 2.884032e+06 4.996147e-01 -366 2.910717e+06 4.996108e-01 -367 2.937650e+06 4.996069e-01 -368 2.964831e+06 4.996029e-01 -369 2.992265e+06 4.995989e-01 -370 3.019952e+06 4.995948e-01 -371 3.047895e+06 4.995906e-01 -372 3.076097e+06 4.995863e-01 -373 3.104560e+06 4.995819e-01 -374 3.133286e+06 4.995775e-01 -375 3.162278e+06 4.995730e-01 -376 3.191538e+06 4.995684e-01 -377 3.221069e+06 4.995637e-01 -378 3.250873e+06 4.995590e-01 -379 3.280953e+06 4.995542e-01 -380 3.311311e+06 4.995492e-01 -381 3.341950e+06 4.995442e-01 -382 3.372873e+06 4.995391e-01 -383 3.404082e+06 4.995339e-01 -384 3.435579e+06 4.995286e-01 -385 3.467369e+06 4.995232e-01 -386 3.499452e+06 4.995178e-01 -387 3.531832e+06 4.995122e-01 -388 3.564511e+06 4.995065e-01 -389 3.597493e+06 4.995007e-01 -390 3.630781e+06 4.994949e-01 -391 3.664376e+06 4.994889e-01 -392 3.698282e+06 4.994828e-01 -393 3.732502e+06 4.994766e-01 -394 3.767038e+06 4.994703e-01 -395 3.801894e+06 4.994639e-01 -396 3.837072e+06 4.994574e-01 -397 3.872576e+06 4.994507e-01 -398 3.908409e+06 4.994440e-01 -399 3.944573e+06 4.994371e-01 -400 3.981072e+06 4.994301e-01 -401 4.017908e+06 4.994230e-01 -402 4.055085e+06 4.994157e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.994084e-01 -404 4.130475e+06 4.994009e-01 -405 4.168694e+06 4.993932e-01 -406 4.207266e+06 4.993855e-01 -407 4.246196e+06 4.993776e-01 -408 4.285485e+06 4.993695e-01 -409 4.325138e+06 4.993613e-01 -410 4.365158e+06 4.993530e-01 -411 4.405549e+06 4.993445e-01 -412 4.446313e+06 4.993359e-01 -413 4.487454e+06 4.993272e-01 -414 4.528976e+06 4.993183e-01 -415 4.570882e+06 4.993092e-01 -416 4.613176e+06 4.993000e-01 -417 4.655861e+06 4.992906e-01 -418 4.698941e+06 4.992810e-01 -419 4.742420e+06 4.992713e-01 -420 4.786301e+06 4.992615e-01 -421 4.830588e+06 4.992514e-01 -422 4.875285e+06 4.992412e-01 -423 4.920395e+06 4.992308e-01 -424 4.965923e+06 4.992202e-01 -425 5.011872e+06 4.992095e-01 -426 5.058247e+06 4.991986e-01 -427 5.105050e+06 4.991874e-01 -428 5.152286e+06 4.991761e-01 -429 5.199960e+06 4.991646e-01 -430 5.248075e+06 4.991530e-01 -431 5.296634e+06 4.991411e-01 -432 5.345644e+06 4.991290e-01 -433 5.395106e+06 4.991167e-01 -434 5.445027e+06 4.991042e-01 -435 5.495409e+06 4.990915e-01 -436 5.546257e+06 4.990786e-01 -437 5.597576e+06 4.990654e-01 -438 5.649370e+06 4.990521e-01 -439 5.701643e+06 4.990385e-01 -440 5.754399e+06 4.990247e-01 -441 5.807644e+06 4.990106e-01 -442 5.861382e+06 4.989964e-01 -443 5.915616e+06 4.989819e-01 -444 5.970353e+06 4.989671e-01 -445 6.025596e+06 4.989521e-01 -446 6.081350e+06 4.989369e-01 -447 6.137620e+06 4.989214e-01 -448 6.194411e+06 4.989057e-01 -449 6.251727e+06 4.988897e-01 -450 6.309573e+06 4.988734e-01 -451 6.367955e+06 4.988569e-01 -452 6.426877e+06 4.988401e-01 -453 6.486344e+06 4.988230e-01 -454 6.546362e+06 4.988057e-01 -455 6.606934e+06 4.987881e-01 -456 6.668068e+06 4.987702e-01 -457 6.729767e+06 4.987520e-01 -458 6.792036e+06 4.987335e-01 -459 6.854882e+06 4.987147e-01 -460 6.918310e+06 4.986956e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.986762e-01 -462 7.046931e+06 4.986565e-01 -463 7.112135e+06 4.986365e-01 -464 7.177943e+06 4.986162e-01 -465 7.244360e+06 4.985956e-01 -466 7.311391e+06 4.985746e-01 -467 7.379042e+06 4.985533e-01 -468 7.447320e+06 4.985317e-01 -469 7.516229e+06 4.985097e-01 -470 7.585776e+06 4.984874e-01 -471 7.655966e+06 4.984647e-01 -472 7.726806e+06 4.984417e-01 -473 7.798301e+06 4.984183e-01 -474 7.870458e+06 4.983946e-01 -475 7.943282e+06 4.983705e-01 -476 8.016781e+06 4.983460e-01 -477 8.090959e+06 4.983212e-01 -478 8.165824e+06 4.982959e-01 -479 8.241381e+06 4.982703e-01 -480 8.317638e+06 4.982443e-01 -481 8.394600e+06 4.982179e-01 -482 8.472274e+06 4.981911e-01 -483 8.550667e+06 4.981639e-01 -484 8.629785e+06 4.981363e-01 -485 8.709636e+06 4.981083e-01 -486 8.790225e+06 4.980798e-01 -487 8.871560e+06 4.980510e-01 -488 8.953648e+06 4.980217e-01 -489 9.036495e+06 4.979919e-01 -490 9.120108e+06 4.979618e-01 -491 9.204496e+06 4.979312e-01 -492 9.289664e+06 4.979001e-01 -493 9.375620e+06 4.978686e-01 -494 9.462372e+06 4.978366e-01 -495 9.549926e+06 4.978041e-01 -496 9.638290e+06 4.977712e-01 -497 9.727472e+06 4.977378e-01 -498 9.817479e+06 4.977039e-01 -499 9.908319e+06 4.976695e-01 -500 1.000000e+07 4.976347e-01 -501 1.009253e+07 4.975993e-01 -502 1.018591e+07 4.975634e-01 -503 1.028016e+07 4.975270e-01 -504 1.037528e+07 4.974901e-01 -505 1.047129e+07 4.974527e-01 -506 1.056818e+07 4.974147e-01 -507 1.066596e+07 4.973762e-01 -508 1.076465e+07 4.973372e-01 -509 1.086426e+07 4.972976e-01 -510 1.096478e+07 4.972575e-01 -511 1.106624e+07 4.972168e-01 -512 1.116863e+07 4.971755e-01 -513 1.127197e+07 4.971337e-01 -514 1.137627e+07 4.970913e-01 -515 1.148154e+07 4.970483e-01 -516 1.158777e+07 4.970047e-01 -517 1.169499e+07 4.969605e-01 -518 1.180321e+07 4.969157e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.968703e-01 -520 1.202264e+07 4.968243e-01 -521 1.213389e+07 4.967777e-01 -522 1.224616e+07 4.967304e-01 -523 1.235947e+07 4.966825e-01 -524 1.247384e+07 4.966339e-01 -525 1.258925e+07 4.965847e-01 -526 1.270574e+07 4.965349e-01 -527 1.282331e+07 4.964844e-01 -528 1.294196e+07 4.964332e-01 -529 1.306171e+07 4.963813e-01 -530 1.318257e+07 4.963287e-01 -531 1.330454e+07 4.962755e-01 -532 1.342765e+07 4.962215e-01 -533 1.355189e+07 4.961668e-01 -534 1.367729e+07 4.961114e-01 -535 1.380384e+07 4.960553e-01 -536 1.393157e+07 4.959985e-01 -537 1.406048e+07 4.959409e-01 -538 1.419058e+07 4.958826e-01 -539 1.432188e+07 4.958235e-01 -540 1.445440e+07 4.957636e-01 -541 1.458814e+07 4.957030e-01 -542 1.472313e+07 4.956416e-01 -543 1.485936e+07 4.955794e-01 -544 1.499685e+07 4.955164e-01 -545 1.513561e+07 4.954526e-01 -546 1.527566e+07 4.953880e-01 -547 1.541700e+07 4.953225e-01 -548 1.555966e+07 4.952562e-01 -549 1.570363e+07 4.951891e-01 -550 1.584893e+07 4.951211e-01 -551 1.599558e+07 4.950523e-01 -552 1.614359e+07 4.949826e-01 -553 1.629296e+07 4.949120e-01 -554 1.644372e+07 4.948406e-01 -555 1.659587e+07 4.947682e-01 -556 1.674943e+07 4.946949e-01 -557 1.690441e+07 4.946207e-01 -558 1.706082e+07 4.945456e-01 -559 1.721869e+07 4.944695e-01 -560 1.737801e+07 4.943925e-01 -561 1.753881e+07 4.943145e-01 -562 1.770109e+07 4.942356e-01 -563 1.786488e+07 4.941556e-01 -564 1.803018e+07 4.940747e-01 -565 1.819701e+07 4.939928e-01 -566 1.836538e+07 4.939098e-01 -567 1.853532e+07 4.938259e-01 -568 1.870682e+07 4.937409e-01 -569 1.887991e+07 4.936549e-01 -570 1.905461e+07 4.935678e-01 -571 1.923092e+07 4.934796e-01 -572 1.940886e+07 4.933903e-01 -573 1.958845e+07 4.933000e-01 -574 1.976970e+07 4.932085e-01 -575 1.995262e+07 4.931160e-01 -576 2.013724e+07 4.930223e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.929275e-01 -578 2.051162e+07 4.928315e-01 -579 2.070141e+07 4.927343e-01 -580 2.089296e+07 4.926360e-01 -581 2.108628e+07 4.925365e-01 -582 2.128139e+07 4.924358e-01 -583 2.147830e+07 4.923339e-01 -584 2.167704e+07 4.922307e-01 -585 2.187762e+07 4.921263e-01 -586 2.208005e+07 4.920207e-01 -587 2.228435e+07 4.919138e-01 -588 2.249055e+07 4.918056e-01 -589 2.269865e+07 4.916962e-01 -590 2.290868e+07 4.915854e-01 -591 2.312065e+07 4.914734e-01 -592 2.333458e+07 4.913600e-01 -593 2.355049e+07 4.912452e-01 -594 2.376840e+07 4.911292e-01 -595 2.398833e+07 4.910117e-01 -596 2.421029e+07 4.908929e-01 -597 2.443431e+07 4.907728e-01 -598 2.466039e+07 4.906512e-01 -599 2.488857e+07 4.905282e-01 -600 2.511886e+07 4.904038e-01 -601 2.535129e+07 4.902780e-01 -602 2.558586e+07 4.901507e-01 -603 2.582260e+07 4.900220e-01 -604 2.606154e+07 4.898918e-01 -605 2.630268e+07 4.897602e-01 -606 2.654606e+07 4.896270e-01 -607 2.679168e+07 4.894924e-01 -608 2.703958e+07 4.893563e-01 -609 2.728978e+07 4.892187e-01 -610 2.754229e+07 4.890795e-01 -611 2.779713e+07 4.889389e-01 -612 2.805434e+07 4.887967e-01 -613 2.831392e+07 4.886529e-01 -614 2.857591e+07 4.885076e-01 -615 2.884032e+07 4.883608e-01 -616 2.910717e+07 4.882124e-01 -617 2.937650e+07 4.880624e-01 -618 2.964831e+07 4.879109e-01 -619 2.992265e+07 4.877577e-01 -620 3.019952e+07 4.876031e-01 -621 3.047895e+07 4.874468e-01 -622 3.076097e+07 4.872889e-01 -623 3.104560e+07 4.871295e-01 -624 3.133286e+07 4.869685e-01 -625 3.162278e+07 4.868059e-01 -626 3.191538e+07 4.866417e-01 -627 3.221069e+07 4.864759e-01 -628 3.250873e+07 4.863086e-01 -629 3.280953e+07 4.861397e-01 -630 3.311311e+07 4.859692e-01 -631 3.341950e+07 4.857971e-01 -632 3.372873e+07 4.856235e-01 -633 3.404082e+07 4.854484e-01 -634 3.435579e+07 4.852717e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.850935e-01 -636 3.499452e+07 4.849138e-01 -637 3.531832e+07 4.847325e-01 -638 3.564511e+07 4.845498e-01 -639 3.597493e+07 4.843657e-01 -640 3.630781e+07 4.841800e-01 -641 3.664376e+07 4.839930e-01 -642 3.698282e+07 4.838045e-01 -643 3.732502e+07 4.836146e-01 -644 3.767038e+07 4.834234e-01 -645 3.801894e+07 4.832309e-01 -646 3.837072e+07 4.830370e-01 -647 3.872576e+07 4.828419e-01 -648 3.908409e+07 4.826455e-01 -649 3.944573e+07 4.824479e-01 -650 3.981072e+07 4.822491e-01 -651 4.017908e+07 4.820492e-01 -652 4.055085e+07 4.818482e-01 -653 4.092607e+07 4.816461e-01 -654 4.130475e+07 4.814430e-01 -655 4.168694e+07 4.812390e-01 -656 4.207266e+07 4.810340e-01 -657 4.246196e+07 4.808282e-01 -658 4.285485e+07 4.806216e-01 -659 4.325138e+07 4.804142e-01 -660 4.365158e+07 4.802062e-01 -661 4.405549e+07 4.799975e-01 -662 4.446313e+07 4.797882e-01 -663 4.487454e+07 4.795785e-01 -664 4.528976e+07 4.793684e-01 -665 4.570882e+07 4.791579e-01 -666 4.613176e+07 4.789471e-01 -667 4.655861e+07 4.787362e-01 -668 4.698941e+07 4.785251e-01 -669 4.742420e+07 4.783141e-01 -670 4.786301e+07 4.781031e-01 -671 4.830588e+07 4.778923e-01 -672 4.875285e+07 4.776817e-01 -673 4.920395e+07 4.774716e-01 -674 4.965923e+07 4.772619e-01 -675 5.011872e+07 4.770528e-01 -676 5.058247e+07 4.768443e-01 -677 5.105050e+07 4.766367e-01 -678 5.152286e+07 4.764301e-01 -679 5.199960e+07 4.762245e-01 -680 5.248075e+07 4.760200e-01 -681 5.296634e+07 4.758169e-01 -682 5.345644e+07 4.756153e-01 -683 5.395106e+07 4.754152e-01 -684 5.445027e+07 4.752169e-01 -685 5.495409e+07 4.750204e-01 -686 5.546257e+07 4.748260e-01 -687 5.597576e+07 4.746337e-01 -688 5.649370e+07 4.744438e-01 -689 5.701643e+07 4.742565e-01 -690 5.754399e+07 4.740718e-01 -691 5.807644e+07 4.738899e-01 -692 5.861382e+07 4.737111e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.735355e-01 -694 5.970353e+07 4.733633e-01 -695 6.025596e+07 4.731947e-01 -696 6.081350e+07 4.730298e-01 -697 6.137620e+07 4.728689e-01 -698 6.194411e+07 4.727122e-01 -699 6.251727e+07 4.725599e-01 -700 6.309573e+07 4.724122e-01 -701 6.367955e+07 4.722692e-01 -702 6.426877e+07 4.721313e-01 -703 6.486344e+07 4.719986e-01 -704 6.546362e+07 4.718714e-01 -705 6.606934e+07 4.717499e-01 -706 6.668068e+07 4.716343e-01 -707 6.729767e+07 4.715248e-01 -708 6.792036e+07 4.714217e-01 -709 6.854882e+07 4.713253e-01 -710 6.918310e+07 4.712357e-01 -711 6.982324e+07 4.711532e-01 -712 7.046931e+07 4.710781e-01 -713 7.112135e+07 4.710105e-01 -714 7.177943e+07 4.709509e-01 -715 7.244360e+07 4.708993e-01 -716 7.311391e+07 4.708560e-01 -717 7.379042e+07 4.708214e-01 -718 7.447320e+07 4.707956e-01 -719 7.516229e+07 4.707789e-01 -720 7.585776e+07 4.707715e-01 -721 7.655966e+07 4.707738e-01 -722 7.726806e+07 4.707859e-01 -723 7.798301e+07 4.708080e-01 -724 7.870458e+07 4.708405e-01 -725 7.943282e+07 4.708836e-01 -726 8.016781e+07 4.709375e-01 -727 8.090959e+07 4.710023e-01 -728 8.165824e+07 4.710785e-01 -729 8.241381e+07 4.711661e-01 -730 8.317638e+07 4.712654e-01 -731 8.394600e+07 4.713765e-01 -732 8.472274e+07 4.714997e-01 -733 8.550667e+07 4.716352e-01 -734 8.629785e+07 4.717831e-01 -735 8.709636e+07 4.719436e-01 -736 8.790225e+07 4.721167e-01 -737 8.871560e+07 4.723028e-01 -738 8.953648e+07 4.725018e-01 -739 9.036495e+07 4.727139e-01 -740 9.120108e+07 4.729392e-01 -741 9.204496e+07 4.731776e-01 -742 9.289664e+07 4.734293e-01 -743 9.375620e+07 4.736943e-01 -744 9.462372e+07 4.739726e-01 -745 9.549926e+07 4.742640e-01 -746 9.638290e+07 4.745686e-01 -747 9.727472e+07 4.748863e-01 -748 9.817479e+07 4.752169e-01 -749 9.908319e+07 4.755604e-01 -750 1.000000e+08 4.759164e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.762847e-01 -752 1.018591e+08 4.766652e-01 -753 1.028016e+08 4.770574e-01 -754 1.037528e+08 4.774610e-01 -755 1.047129e+08 4.778757e-01 -756 1.056818e+08 4.783009e-01 -757 1.066596e+08 4.787362e-01 -758 1.076465e+08 4.791809e-01 -759 1.086426e+08 4.796346e-01 -760 1.096478e+08 4.800966e-01 -761 1.106624e+08 4.805660e-01 -762 1.116863e+08 4.810422e-01 -763 1.127197e+08 4.815243e-01 -764 1.137627e+08 4.820113e-01 -765 1.148154e+08 4.825024e-01 -766 1.158777e+08 4.829964e-01 -767 1.169499e+08 4.834923e-01 -768 1.180321e+08 4.839889e-01 -769 1.191242e+08 4.844850e-01 -770 1.202264e+08 4.849792e-01 -771 1.213389e+08 4.854702e-01 -772 1.224616e+08 4.859566e-01 -773 1.235947e+08 4.864368e-01 -774 1.247384e+08 4.869093e-01 -775 1.258925e+08 4.873725e-01 -776 1.270574e+08 4.878247e-01 -777 1.282331e+08 4.882641e-01 -778 1.294196e+08 4.886890e-01 -779 1.306171e+08 4.890976e-01 -780 1.318257e+08 4.894880e-01 -781 1.330454e+08 4.898583e-01 -782 1.342765e+08 4.902066e-01 -783 1.355189e+08 4.905311e-01 -784 1.367729e+08 4.908297e-01 -785 1.380384e+08 4.911006e-01 -786 1.393157e+08 4.913419e-01 -787 1.406048e+08 4.915517e-01 -788 1.419058e+08 4.917281e-01 -789 1.432188e+08 4.918695e-01 -790 1.445440e+08 4.919742e-01 -791 1.458814e+08 4.920405e-01 -792 1.472313e+08 4.920668e-01 -793 1.485936e+08 4.920519e-01 -794 1.499685e+08 4.919945e-01 -795 1.513561e+08 4.918934e-01 -796 1.527566e+08 4.917476e-01 -797 1.541700e+08 4.915564e-01 -798 1.555966e+08 4.913193e-01 -799 1.570363e+08 4.910357e-01 -800 1.584893e+08 4.907056e-01 -801 1.599558e+08 4.903290e-01 -802 1.614359e+08 4.899062e-01 -803 1.629296e+08 4.894377e-01 -804 1.644372e+08 4.889244e-01 -805 1.659587e+08 4.883672e-01 -806 1.674943e+08 4.877677e-01 -807 1.690441e+08 4.871273e-01 -808 1.706082e+08 4.864480e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.857319e-01 -810 1.737801e+08 4.849815e-01 -811 1.753881e+08 4.841994e-01 -812 1.770109e+08 4.833885e-01 -813 1.786488e+08 4.825522e-01 -814 1.803018e+08 4.816938e-01 -815 1.819701e+08 4.808170e-01 -816 1.836538e+08 4.799256e-01 -817 1.853532e+08 4.790238e-01 -818 1.870682e+08 4.781157e-01 -819 1.887991e+08 4.772058e-01 -820 1.905461e+08 4.762985e-01 -821 1.923092e+08 4.753986e-01 -822 1.940886e+08 4.745108e-01 -823 1.958845e+08 4.736399e-01 -824 1.976970e+08 4.727908e-01 -825 1.995262e+08 4.719683e-01 -826 2.013724e+08 4.711773e-01 -827 2.032357e+08 4.704227e-01 -828 2.051162e+08 4.697094e-01 -829 2.070141e+08 4.690419e-01 -830 2.089296e+08 4.684249e-01 -831 2.108628e+08 4.678630e-01 -832 2.128139e+08 4.673603e-01 -833 2.147830e+08 4.669210e-01 -834 2.167704e+08 4.665490e-01 -835 2.187762e+08 4.662479e-01 -836 2.208005e+08 4.660210e-01 -837 2.228435e+08 4.658712e-01 -838 2.249055e+08 4.658013e-01 -839 2.269865e+08 4.658133e-01 -840 2.290868e+08 4.659091e-01 -841 2.312065e+08 4.660899e-01 -842 2.333458e+08 4.663563e-01 -843 2.355049e+08 4.667086e-01 -844 2.376840e+08 4.671461e-01 -845 2.398833e+08 4.676676e-01 -846 2.421029e+08 4.682711e-01 -847 2.443431e+08 4.689539e-01 -848 2.466039e+08 4.697124e-01 -849 2.488857e+08 4.705419e-01 -850 2.511886e+08 4.714370e-01 -851 2.535129e+08 4.723912e-01 -852 2.558586e+08 4.733970e-01 -853 2.582260e+08 4.744459e-01 -854 2.606154e+08 4.755283e-01 -855 2.630268e+08 4.766336e-01 -856 2.654606e+08 4.777503e-01 -857 2.679168e+08 4.788658e-01 -858 2.703958e+08 4.799667e-01 -859 2.728978e+08 4.810389e-01 -860 2.754229e+08 4.820679e-01 -861 2.779713e+08 4.830384e-01 -862 2.805434e+08 4.839353e-01 -863 2.831392e+08 4.847436e-01 -864 2.857591e+08 4.854484e-01 -865 2.884032e+08 4.860358e-01 -866 2.910717e+08 4.864928e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.868078e-01 -868 2.964831e+08 4.869709e-01 -869 2.992265e+08 4.869744e-01 -870 3.019952e+08 4.868129e-01 -871 3.047895e+08 4.864834e-01 -872 3.076097e+08 4.859861e-01 -873 3.104560e+08 4.853238e-01 -874 3.133286e+08 4.845026e-01 -875 3.162278e+08 4.835316e-01 -876 3.191538e+08 4.824228e-01 -877 3.221069e+08 4.811908e-01 -878 3.250873e+08 4.798532e-01 -879 3.280953e+08 4.784294e-01 -880 3.311311e+08 4.769411e-01 -881 3.341950e+08 4.754113e-01 -882 3.372873e+08 4.738643e-01 -883 3.404082e+08 4.723249e-01 -884 3.435579e+08 4.708184e-01 -885 3.467369e+08 4.693700e-01 -886 3.499452e+08 4.680044e-01 -887 3.531832e+08 4.667452e-01 -888 3.564511e+08 4.656151e-01 -889 3.597493e+08 4.646349e-01 -890 3.630781e+08 4.638237e-01 -891 3.664376e+08 4.631984e-01 -892 3.698282e+08 4.627733e-01 -893 3.732502e+08 4.625599e-01 -894 3.767038e+08 4.625665e-01 -895 3.801894e+08 4.627980e-01 -896 3.837072e+08 4.632557e-01 -897 3.872576e+08 4.639364e-01 -898 3.908409e+08 4.648327e-01 -899 3.944573e+08 4.659323e-01 -900 3.981072e+08 4.672179e-01 -901 4.017908e+08 4.686666e-01 -902 4.055085e+08 4.702504e-01 -903 4.092607e+08 4.719356e-01 -904 4.130475e+08 4.736831e-01 -905 4.168694e+08 4.754490e-01 -906 4.207266e+08 4.771856e-01 -907 4.246196e+08 4.788417e-01 -908 4.285485e+08 4.803649e-01 -909 4.325138e+08 4.817028e-01 -910 4.365158e+08 4.828056e-01 -911 4.405549e+08 4.836280e-01 -912 4.446313e+08 4.841321e-01 -913 4.487454e+08 4.842893e-01 -914 4.528976e+08 4.840826e-01 -915 4.570882e+08 4.835080e-01 -916 4.613176e+08 4.825756e-01 -917 4.655861e+08 4.813094e-01 -918 4.698941e+08 4.797471e-01 -919 4.742420e+08 4.779381e-01 -920 4.786301e+08 4.759423e-01 -921 4.830588e+08 4.738267e-01 -922 4.875285e+08 4.716635e-01 -923 4.920395e+08 4.695270e-01 -924 4.965923e+08 4.674910e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.656263e-01 -926 5.058247e+08 4.639986e-01 -927 5.105050e+08 4.626668e-01 -928 5.152286e+08 4.616810e-01 -929 5.199960e+08 4.610813e-01 -930 5.248075e+08 4.608965e-01 -931 5.296634e+08 4.611426e-01 -932 5.345644e+08 4.618219e-01 -933 5.395106e+08 4.629213e-01 -934 5.445027e+08 4.644115e-01 -935 5.495409e+08 4.662457e-01 -936 5.546257e+08 4.683592e-01 -937 5.597576e+08 4.706693e-01 -938 5.649370e+08 4.730763e-01 -939 5.701643e+08 4.754666e-01 -940 5.754399e+08 4.777166e-01 -941 5.807644e+08 4.796990e-01 -942 5.861382e+08 4.812915e-01 -943 5.915616e+08 4.823859e-01 -944 5.970353e+08 4.828979e-01 -945 6.025596e+08 4.827764e-01 -946 6.081350e+08 4.820098e-01 -947 6.137620e+08 4.806296e-01 -948 6.194411e+08 4.787091e-01 -949 6.251727e+08 4.763584e-01 -950 6.309573e+08 4.737165e-01 -951 6.367955e+08 4.709406e-01 -952 6.426877e+08 4.681957e-01 -953 6.486344e+08 4.656438e-01 -954 6.546362e+08 4.634353e-01 -955 6.606934e+08 4.617015e-01 -956 6.668068e+08 4.605486e-01 -957 6.729767e+08 4.600534e-01 -958 6.792036e+08 4.602594e-01 -959 6.854882e+08 4.611727e-01 -960 6.918310e+08 4.627593e-01 -961 6.982324e+08 4.649417e-01 -962 7.046931e+08 4.675969e-01 -963 7.112135e+08 4.705573e-01 -964 7.177943e+08 4.736148e-01 -965 7.244360e+08 4.765312e-01 -966 7.311391e+08 4.790555e-01 -967 7.379042e+08 4.809480e-01 -968 7.447320e+08 4.820093e-01 -969 7.516229e+08 4.821090e-01 -970 7.585776e+08 4.812082e-01 -971 7.655966e+08 4.793704e-01 -972 7.726806e+08 4.767566e-01 -973 7.798301e+08 4.736069e-01 -974 7.870458e+08 4.702121e-01 -975 7.943282e+08 4.668820e-01 -976 8.016781e+08 4.639152e-01 -977 8.090959e+08 4.615753e-01 -978 8.165824e+08 4.600722e-01 -979 8.241381e+08 4.595498e-01 -980 8.317638e+08 4.600756e-01 -981 8.394600e+08 4.616332e-01 -982 8.472274e+08 4.641144e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.673154e-01 -984 8.629785e+08 4.709377e-01 -985 8.709636e+08 4.746014e-01 -986 8.790225e+08 4.778770e-01 -987 8.871560e+08 4.803361e-01 -988 8.953648e+08 4.816209e-01 -989 9.036495e+08 4.815139e-01 -990 9.120108e+08 4.799903e-01 -991 9.204496e+08 4.772336e-01 -992 9.289664e+08 4.736067e-01 -993 9.375620e+08 4.695895e-01 -994 9.462372e+08 4.657026e-01 -995 9.549926e+08 4.624362e-01 -996 9.638290e+08 4.601958e-01 -997 9.727472e+08 4.592661e-01 -998 9.817479e+08 4.597868e-01 -999 9.908319e+08 4.617355e-01 -1000 1.000000e+09 4.649143e-01 - -CPU time since last call: 0.042 seconds. - -Total CPU time: 0.042 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4835.039062 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 771.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec deleted file mode 100644 index 5f4a137..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_20_ESCC_3901025_V10 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec deleted file mode 100644 index f7b443b..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/TP_AWG_20_ESCC_3901025_V10_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_20_ESCC_3901025_V10_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/analytic_solution.dat_reference deleted file mode 100644 index 4a3d721..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49967936303781169 -2.5191878142089542E-003 - 100926.21909870484 0.49967846599074212 -2.5417384653263651E-003 - 101861.01701559752 0.49967755789582524 -2.5644816076856986E-003 - 102804.47320933097 0.49967663869677181 -2.5874187645128907E-003 - 103756.66787451849 0.49967570833924724 -2.6105514720507787E-003 - 104717.68194855202 0.49967476677092815 -2.6338812797914754E-003 - 105687.59711848051 0.49967381394155824 -2.6574097507149974E-003 - 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0.48026942188621063 -2.3729588292593302 - 717556091.89369214 0.48029977786521899 -2.5112210734733234 - 724202233.46073151 0.48031759684780512 -2.6508282754976156 - 730909932.86029184 0.48031426780028835 -2.7917837954989952 - 737679760.25277460 0.48028245366452205 -2.9340860954315948 - 744512291.07951283 0.48021679006570234 -3.0777295315360265 - 751408106.11169624 0.48011447236570609 3.0604797254263714 - 758367791.49971902 0.47997566414567322 2.9141808652047283 - 765391938.82301557 0.47980366997554885 2.7665684266217370 - 772481145.14034164 0.47960483284971805 2.6176491053165907 - 779636013.04052210 0.47938814063657298 2.4674251650745327 - 786857150.69368434 0.47916455394440444 2.3158927982408395 - 794145171.90293396 0.47894609691981033 2.1630409244511197 - 801500696.15654135 0.47874477951435934 2.0088505840792528 - 808924348.68059552 0.47857144191014023 1.8532950392983440 - 816416760.49214554 0.47843462701521061 1.6963406371818195 - 823978568.45285118 0.47833959389137476 1.5379484198712470 - 831610415.32309616 0.47828758283943446 1.3780763912470277 - 839312949.81663728 0.47827543100529529 1.2166822731038205 - 847086826.65574193 0.47829561511036583 1.0537265127448951 - 854932706.62683666 0.47833676464349029 0.88917524556242311 - 862851256.63668871 0.47838464458794017 0.72300287938167329 - 870843149.76907241 0.47842355305966544 0.55519396187035319 - 878909065.34199631 0.47843802025202575 0.38574402734538693 - 887049688.96544206 0.47841463817123975 0.21465920092201607 - 895265712.59963822 0.47834380599733872 4.1954465880700648E-002 - 903557834.61389208 0.47822115483140160 -0.13234933494549705 - 911926759.84592986 0.47804842760587718 -0.30822951040822016 - 920373199.66182303 0.47783363943992530 -0.48566611889284328 - 928897872.01645172 0.47759042758534670 -0.66464659472627485 - 937501501.51452708 0.47733660737998324 -0.84516978083428007 - 946184819.47219920 0.47709206480748961 -1.0272487660012077 - 954948563.97919667 0.47687621940657904 -1.2109120340003923 - 963793479.96157956 0.47670536820143727 -1.3962026186828680 - 972720319.24505568 0.47659026218656791 -1.5831752031985891 - 981729840.61888206 0.47653426715068425 -1.7718913765976563 - 990822809.90037870 0.47653241897224202 -1.9624135384190546 - 1000000000.0000000 0.47657159958966888 -2.1547981908763125 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/result_comparison.dat_reference deleted file mode 100644 index 2636416..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00213154 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/spice_solution.dat_reference deleted file mode 100644 index 2276743..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:49:06 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.998248e-01 -1 1.009253e+05 4.998248e-01 -2 1.018591e+05 4.998248e-01 -3 1.028016e+05 4.998248e-01 -4 1.037528e+05 4.998248e-01 -5 1.047129e+05 4.998248e-01 -6 1.056818e+05 4.998248e-01 -7 1.066596e+05 4.998248e-01 -8 1.076465e+05 4.998248e-01 -9 1.086426e+05 4.998248e-01 -10 1.096478e+05 4.998248e-01 -11 1.106624e+05 4.998248e-01 -12 1.116863e+05 4.998248e-01 -13 1.127197e+05 4.998248e-01 -14 1.137627e+05 4.998248e-01 -15 1.148154e+05 4.998248e-01 -16 1.158777e+05 4.998248e-01 -17 1.169499e+05 4.998248e-01 -18 1.180321e+05 4.998248e-01 -19 1.191242e+05 4.998247e-01 -20 1.202264e+05 4.998247e-01 -21 1.213389e+05 4.998247e-01 -22 1.224616e+05 4.998247e-01 -23 1.235947e+05 4.998247e-01 -24 1.247384e+05 4.998247e-01 -25 1.258925e+05 4.998247e-01 -26 1.270574e+05 4.998247e-01 -27 1.282331e+05 4.998247e-01 -28 1.294196e+05 4.998247e-01 -29 1.306171e+05 4.998247e-01 -30 1.318257e+05 4.998247e-01 -31 1.330454e+05 4.998247e-01 -32 1.342765e+05 4.998247e-01 -33 1.355189e+05 4.998247e-01 -34 1.367729e+05 4.998247e-01 -35 1.380384e+05 4.998247e-01 -36 1.393157e+05 4.998247e-01 -37 1.406048e+05 4.998247e-01 -38 1.419058e+05 4.998246e-01 -39 1.432188e+05 4.998246e-01 -40 1.445440e+05 4.998246e-01 -41 1.458814e+05 4.998246e-01 -42 1.472313e+05 4.998246e-01 -43 1.485936e+05 4.998246e-01 -44 1.499685e+05 4.998246e-01 -45 1.513561e+05 4.998246e-01 -46 1.527566e+05 4.998246e-01 -47 1.541700e+05 4.998246e-01 -48 1.555966e+05 4.998246e-01 -49 1.570363e+05 4.998246e-01 -50 1.584893e+05 4.998246e-01 -51 1.599558e+05 4.998246e-01 -52 1.614359e+05 4.998245e-01 -53 1.629296e+05 4.998245e-01 -54 1.644372e+05 4.998245e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.998245e-01 -56 1.674943e+05 4.998245e-01 -57 1.690441e+05 4.998245e-01 -58 1.706082e+05 4.998245e-01 -59 1.721869e+05 4.998245e-01 -60 1.737801e+05 4.998245e-01 -61 1.753881e+05 4.998245e-01 -62 1.770109e+05 4.998245e-01 -63 1.786488e+05 4.998245e-01 -64 1.803018e+05 4.998244e-01 -65 1.819701e+05 4.998244e-01 -66 1.836538e+05 4.998244e-01 -67 1.853532e+05 4.998244e-01 -68 1.870682e+05 4.998244e-01 -69 1.887991e+05 4.998244e-01 -70 1.905461e+05 4.998244e-01 -71 1.923092e+05 4.998244e-01 -72 1.940886e+05 4.998244e-01 -73 1.958845e+05 4.998243e-01 -74 1.976970e+05 4.998243e-01 -75 1.995262e+05 4.998243e-01 -76 2.013724e+05 4.998243e-01 -77 2.032357e+05 4.998243e-01 -78 2.051162e+05 4.998243e-01 -79 2.070141e+05 4.998243e-01 -80 2.089296e+05 4.998243e-01 -81 2.108628e+05 4.998242e-01 -82 2.128139e+05 4.998242e-01 -83 2.147830e+05 4.998242e-01 -84 2.167704e+05 4.998242e-01 -85 2.187762e+05 4.998242e-01 -86 2.208005e+05 4.998242e-01 -87 2.228435e+05 4.998242e-01 -88 2.249055e+05 4.998241e-01 -89 2.269865e+05 4.998241e-01 -90 2.290868e+05 4.998241e-01 -91 2.312065e+05 4.998241e-01 -92 2.333458e+05 4.998241e-01 -93 2.355049e+05 4.998241e-01 -94 2.376840e+05 4.998240e-01 -95 2.398833e+05 4.998240e-01 -96 2.421029e+05 4.998240e-01 -97 2.443431e+05 4.998240e-01 -98 2.466039e+05 4.998240e-01 -99 2.488857e+05 4.998240e-01 -100 2.511886e+05 4.998239e-01 -101 2.535129e+05 4.998239e-01 -102 2.558586e+05 4.998239e-01 -103 2.582260e+05 4.998239e-01 -104 2.606154e+05 4.998239e-01 -105 2.630268e+05 4.998238e-01 -106 2.654606e+05 4.998238e-01 -107 2.679168e+05 4.998238e-01 -108 2.703958e+05 4.998238e-01 -109 2.728978e+05 4.998237e-01 -110 2.754229e+05 4.998237e-01 -111 2.779713e+05 4.998237e-01 -112 2.805434e+05 4.998237e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.998236e-01 -114 2.857591e+05 4.998236e-01 -115 2.884032e+05 4.998236e-01 -116 2.910717e+05 4.998236e-01 -117 2.937650e+05 4.998235e-01 -118 2.964831e+05 4.998235e-01 -119 2.992265e+05 4.998235e-01 -120 3.019952e+05 4.998235e-01 -121 3.047895e+05 4.998234e-01 -122 3.076097e+05 4.998234e-01 -123 3.104560e+05 4.998234e-01 -124 3.133286e+05 4.998233e-01 -125 3.162278e+05 4.998233e-01 -126 3.191538e+05 4.998233e-01 -127 3.221069e+05 4.998233e-01 -128 3.250873e+05 4.998232e-01 -129 3.280953e+05 4.998232e-01 -130 3.311311e+05 4.998232e-01 -131 3.341950e+05 4.998231e-01 -132 3.372873e+05 4.998231e-01 -133 3.404082e+05 4.998231e-01 -134 3.435579e+05 4.998230e-01 -135 3.467369e+05 4.998230e-01 -136 3.499452e+05 4.998229e-01 -137 3.531832e+05 4.998229e-01 -138 3.564511e+05 4.998229e-01 -139 3.597493e+05 4.998228e-01 -140 3.630781e+05 4.998228e-01 -141 3.664376e+05 4.998227e-01 -142 3.698282e+05 4.998227e-01 -143 3.732502e+05 4.998227e-01 -144 3.767038e+05 4.998226e-01 -145 3.801894e+05 4.998226e-01 -146 3.837072e+05 4.998225e-01 -147 3.872576e+05 4.998225e-01 -148 3.908409e+05 4.998224e-01 -149 3.944573e+05 4.998224e-01 -150 3.981072e+05 4.998223e-01 -151 4.017908e+05 4.998223e-01 -152 4.055085e+05 4.998222e-01 -153 4.092607e+05 4.998222e-01 -154 4.130475e+05 4.998221e-01 -155 4.168694e+05 4.998221e-01 -156 4.207266e+05 4.998220e-01 -157 4.246196e+05 4.998220e-01 -158 4.285485e+05 4.998219e-01 -159 4.325138e+05 4.998219e-01 -160 4.365158e+05 4.998218e-01 -161 4.405549e+05 4.998218e-01 -162 4.446313e+05 4.998217e-01 -163 4.487454e+05 4.998216e-01 -164 4.528976e+05 4.998216e-01 -165 4.570882e+05 4.998215e-01 -166 4.613176e+05 4.998214e-01 -167 4.655861e+05 4.998214e-01 -168 4.698941e+05 4.998213e-01 -169 4.742420e+05 4.998212e-01 -170 4.786301e+05 4.998212e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.998211e-01 -172 4.875285e+05 4.998210e-01 -173 4.920395e+05 4.998210e-01 -174 4.965923e+05 4.998209e-01 -175 5.011872e+05 4.998208e-01 -176 5.058247e+05 4.998207e-01 -177 5.105050e+05 4.998206e-01 -178 5.152286e+05 4.998206e-01 -179 5.199960e+05 4.998205e-01 -180 5.248075e+05 4.998204e-01 -181 5.296634e+05 4.998203e-01 -182 5.345644e+05 4.998202e-01 -183 5.395106e+05 4.998201e-01 -184 5.445027e+05 4.998200e-01 -185 5.495409e+05 4.998200e-01 -186 5.546257e+05 4.998199e-01 -187 5.597576e+05 4.998198e-01 -188 5.649370e+05 4.998197e-01 -189 5.701643e+05 4.998196e-01 -190 5.754399e+05 4.998195e-01 -191 5.807644e+05 4.998194e-01 -192 5.861382e+05 4.998193e-01 -193 5.915616e+05 4.998192e-01 -194 5.970353e+05 4.998190e-01 -195 6.025596e+05 4.998189e-01 -196 6.081350e+05 4.998188e-01 -197 6.137620e+05 4.998187e-01 -198 6.194411e+05 4.998186e-01 -199 6.251727e+05 4.998185e-01 -200 6.309573e+05 4.998184e-01 -201 6.367955e+05 4.998182e-01 -202 6.426877e+05 4.998181e-01 -203 6.486344e+05 4.998180e-01 -204 6.546362e+05 4.998178e-01 -205 6.606934e+05 4.998177e-01 -206 6.668068e+05 4.998176e-01 -207 6.729767e+05 4.998174e-01 -208 6.792036e+05 4.998173e-01 -209 6.854882e+05 4.998172e-01 -210 6.918310e+05 4.998170e-01 -211 6.982324e+05 4.998169e-01 -212 7.046931e+05 4.998167e-01 -213 7.112135e+05 4.998166e-01 -214 7.177943e+05 4.998164e-01 -215 7.244360e+05 4.998163e-01 -216 7.311391e+05 4.998161e-01 -217 7.379042e+05 4.998159e-01 -218 7.447320e+05 4.998158e-01 -219 7.516229e+05 4.998156e-01 -220 7.585776e+05 4.998154e-01 -221 7.655966e+05 4.998152e-01 -222 7.726806e+05 4.998151e-01 -223 7.798301e+05 4.998149e-01 -224 7.870458e+05 4.998147e-01 -225 7.943282e+05 4.998145e-01 -226 8.016781e+05 4.998143e-01 -227 8.090959e+05 4.998141e-01 -228 8.165824e+05 4.998139e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.998137e-01 -230 8.317638e+05 4.998135e-01 -231 8.394600e+05 4.998133e-01 -232 8.472274e+05 4.998130e-01 -233 8.550667e+05 4.998128e-01 -234 8.629785e+05 4.998126e-01 -235 8.709636e+05 4.998124e-01 -236 8.790225e+05 4.998121e-01 -237 8.871560e+05 4.998119e-01 -238 8.953648e+05 4.998117e-01 -239 9.036495e+05 4.998114e-01 -240 9.120108e+05 4.998112e-01 -241 9.204496e+05 4.998109e-01 -242 9.289664e+05 4.998106e-01 -243 9.375620e+05 4.998104e-01 -244 9.462372e+05 4.998101e-01 -245 9.549926e+05 4.998098e-01 -246 9.638290e+05 4.998095e-01 -247 9.727472e+05 4.998093e-01 -248 9.817479e+05 4.998090e-01 -249 9.908319e+05 4.998087e-01 -250 1.000000e+06 4.998084e-01 -251 1.009253e+06 4.998081e-01 -252 1.018591e+06 4.998077e-01 -253 1.028016e+06 4.998074e-01 -254 1.037528e+06 4.998071e-01 -255 1.047129e+06 4.998068e-01 -256 1.056818e+06 4.998064e-01 -257 1.066596e+06 4.998061e-01 -258 1.076465e+06 4.998057e-01 -259 1.086426e+06 4.998054e-01 -260 1.096478e+06 4.998050e-01 -261 1.106624e+06 4.998047e-01 -262 1.116863e+06 4.998043e-01 -263 1.127197e+06 4.998039e-01 -264 1.137627e+06 4.998035e-01 -265 1.148154e+06 4.998031e-01 -266 1.158777e+06 4.998027e-01 -267 1.169499e+06 4.998023e-01 -268 1.180321e+06 4.998019e-01 -269 1.191242e+06 4.998014e-01 -270 1.202264e+06 4.998010e-01 -271 1.213389e+06 4.998006e-01 -272 1.224616e+06 4.998001e-01 -273 1.235947e+06 4.997996e-01 -274 1.247384e+06 4.997992e-01 -275 1.258925e+06 4.997987e-01 -276 1.270574e+06 4.997982e-01 -277 1.282331e+06 4.997977e-01 -278 1.294196e+06 4.997972e-01 -279 1.306171e+06 4.997967e-01 -280 1.318257e+06 4.997962e-01 -281 1.330454e+06 4.997956e-01 -282 1.342765e+06 4.997951e-01 -283 1.355189e+06 4.997946e-01 -284 1.367729e+06 4.997940e-01 -285 1.380384e+06 4.997934e-01 -286 1.393157e+06 4.997928e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.997922e-01 -288 1.419058e+06 4.997916e-01 -289 1.432188e+06 4.997910e-01 -290 1.445440e+06 4.997904e-01 -291 1.458814e+06 4.997898e-01 -292 1.472313e+06 4.997891e-01 -293 1.485936e+06 4.997884e-01 -294 1.499685e+06 4.997878e-01 -295 1.513561e+06 4.997871e-01 -296 1.527566e+06 4.997864e-01 -297 1.541700e+06 4.997857e-01 -298 1.555966e+06 4.997849e-01 -299 1.570363e+06 4.997842e-01 -300 1.584893e+06 4.997835e-01 -301 1.599558e+06 4.997827e-01 -302 1.614359e+06 4.997819e-01 -303 1.629296e+06 4.997811e-01 -304 1.644372e+06 4.997803e-01 -305 1.659587e+06 4.997795e-01 -306 1.674943e+06 4.997786e-01 -307 1.690441e+06 4.997778e-01 -308 1.706082e+06 4.997769e-01 -309 1.721869e+06 4.997760e-01 -310 1.737801e+06 4.997751e-01 -311 1.753881e+06 4.997742e-01 -312 1.770109e+06 4.997733e-01 -313 1.786488e+06 4.997723e-01 -314 1.803018e+06 4.997714e-01 -315 1.819701e+06 4.997704e-01 -316 1.836538e+06 4.997694e-01 -317 1.853532e+06 4.997683e-01 -318 1.870682e+06 4.997673e-01 -319 1.887991e+06 4.997662e-01 -320 1.905461e+06 4.997652e-01 -321 1.923092e+06 4.997641e-01 -322 1.940886e+06 4.997630e-01 -323 1.958845e+06 4.997618e-01 -324 1.976970e+06 4.997607e-01 -325 1.995262e+06 4.997595e-01 -326 2.013724e+06 4.997583e-01 -327 2.032357e+06 4.997570e-01 -328 2.051162e+06 4.997558e-01 -329 2.070141e+06 4.997545e-01 -330 2.089296e+06 4.997532e-01 -331 2.108628e+06 4.997519e-01 -332 2.128139e+06 4.997506e-01 -333 2.147830e+06 4.997492e-01 -334 2.167704e+06 4.997478e-01 -335 2.187762e+06 4.997464e-01 -336 2.208005e+06 4.997450e-01 -337 2.228435e+06 4.997435e-01 -338 2.249055e+06 4.997420e-01 -339 2.269865e+06 4.997405e-01 -340 2.290868e+06 4.997390e-01 -341 2.312065e+06 4.997374e-01 -342 2.333458e+06 4.997358e-01 -343 2.355049e+06 4.997342e-01 -344 2.376840e+06 4.997325e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.997308e-01 -346 2.421029e+06 4.997291e-01 -347 2.443431e+06 4.997274e-01 -348 2.466039e+06 4.997256e-01 -349 2.488857e+06 4.997238e-01 -350 2.511886e+06 4.997219e-01 -351 2.535129e+06 4.997201e-01 -352 2.558586e+06 4.997181e-01 -353 2.582260e+06 4.997162e-01 -354 2.606154e+06 4.997142e-01 -355 2.630268e+06 4.997122e-01 -356 2.654606e+06 4.997102e-01 -357 2.679168e+06 4.997081e-01 -358 2.703958e+06 4.997059e-01 -359 2.728978e+06 4.997038e-01 -360 2.754229e+06 4.997016e-01 -361 2.779713e+06 4.996993e-01 -362 2.805434e+06 4.996971e-01 -363 2.831392e+06 4.996948e-01 -364 2.857591e+06 4.996924e-01 -365 2.884032e+06 4.996900e-01 -366 2.910717e+06 4.996876e-01 -367 2.937650e+06 4.996851e-01 -368 2.964831e+06 4.996825e-01 -369 2.992265e+06 4.996800e-01 -370 3.019952e+06 4.996773e-01 -371 3.047895e+06 4.996747e-01 -372 3.076097e+06 4.996720e-01 -373 3.104560e+06 4.996692e-01 -374 3.133286e+06 4.996664e-01 -375 3.162278e+06 4.996636e-01 -376 3.191538e+06 4.996606e-01 -377 3.221069e+06 4.996577e-01 -378 3.250873e+06 4.996547e-01 -379 3.280953e+06 4.996516e-01 -380 3.311311e+06 4.996485e-01 -381 3.341950e+06 4.996453e-01 -382 3.372873e+06 4.996421e-01 -383 3.404082e+06 4.996389e-01 -384 3.435579e+06 4.996355e-01 -385 3.467369e+06 4.996321e-01 -386 3.499452e+06 4.996287e-01 -387 3.531832e+06 4.996252e-01 -388 3.564511e+06 4.996216e-01 -389 3.597493e+06 4.996180e-01 -390 3.630781e+06 4.996143e-01 -391 3.664376e+06 4.996105e-01 -392 3.698282e+06 4.996067e-01 -393 3.732502e+06 4.996028e-01 -394 3.767038e+06 4.995989e-01 -395 3.801894e+06 4.995949e-01 -396 3.837072e+06 4.995908e-01 -397 3.872576e+06 4.995866e-01 -398 3.908409e+06 4.995824e-01 -399 3.944573e+06 4.995781e-01 -400 3.981072e+06 4.995738e-01 -401 4.017908e+06 4.995693e-01 -402 4.055085e+06 4.995648e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.995602e-01 -404 4.130475e+06 4.995556e-01 -405 4.168694e+06 4.995508e-01 -406 4.207266e+06 4.995460e-01 -407 4.246196e+06 4.995411e-01 -408 4.285485e+06 4.995361e-01 -409 4.325138e+06 4.995311e-01 -410 4.365158e+06 4.995259e-01 -411 4.405549e+06 4.995207e-01 -412 4.446313e+06 4.995154e-01 -413 4.487454e+06 4.995100e-01 -414 4.528976e+06 4.995045e-01 -415 4.570882e+06 4.994989e-01 -416 4.613176e+06 4.994932e-01 -417 4.655861e+06 4.994875e-01 -418 4.698941e+06 4.994816e-01 -419 4.742420e+06 4.994757e-01 -420 4.786301e+06 4.994696e-01 -421 4.830588e+06 4.994635e-01 -422 4.875285e+06 4.994572e-01 -423 4.920395e+06 4.994509e-01 -424 4.965923e+06 4.994444e-01 -425 5.011872e+06 4.994379e-01 -426 5.058247e+06 4.994313e-01 -427 5.105050e+06 4.994245e-01 -428 5.152286e+06 4.994177e-01 -429 5.199960e+06 4.994107e-01 -430 5.248075e+06 4.994036e-01 -431 5.296634e+06 4.993964e-01 -432 5.345644e+06 4.993892e-01 -433 5.395106e+06 4.993817e-01 -434 5.445027e+06 4.993742e-01 -435 5.495409e+06 4.993666e-01 -436 5.546257e+06 4.993588e-01 -437 5.597576e+06 4.993510e-01 -438 5.649370e+06 4.993430e-01 -439 5.701643e+06 4.993349e-01 -440 5.754399e+06 4.993267e-01 -441 5.807644e+06 4.993183e-01 -442 5.861382e+06 4.993098e-01 -443 5.915616e+06 4.993012e-01 -444 5.970353e+06 4.992925e-01 -445 6.025596e+06 4.992836e-01 -446 6.081350e+06 4.992746e-01 -447 6.137620e+06 4.992655e-01 -448 6.194411e+06 4.992563e-01 -449 6.251727e+06 4.992469e-01 -450 6.309573e+06 4.992373e-01 -451 6.367955e+06 4.992277e-01 -452 6.426877e+06 4.992179e-01 -453 6.486344e+06 4.992080e-01 -454 6.546362e+06 4.991979e-01 -455 6.606934e+06 4.991877e-01 -456 6.668068e+06 4.991773e-01 -457 6.729767e+06 4.991668e-01 -458 6.792036e+06 4.991561e-01 -459 6.854882e+06 4.991453e-01 -460 6.918310e+06 4.991344e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.991233e-01 -462 7.046931e+06 4.991120e-01 -463 7.112135e+06 4.991006e-01 -464 7.177943e+06 4.990891e-01 -465 7.244360e+06 4.990774e-01 -466 7.311391e+06 4.990655e-01 -467 7.379042e+06 4.990535e-01 -468 7.447320e+06 4.990413e-01 -469 7.516229e+06 4.990290e-01 -470 7.585776e+06 4.990165e-01 -471 7.655966e+06 4.990039e-01 -472 7.726806e+06 4.989911e-01 -473 7.798301e+06 4.989781e-01 -474 7.870458e+06 4.989649e-01 -475 7.943282e+06 4.989516e-01 -476 8.016781e+06 4.989382e-01 -477 8.090959e+06 4.989246e-01 -478 8.165824e+06 4.989108e-01 -479 8.241381e+06 4.988968e-01 -480 8.317638e+06 4.988827e-01 -481 8.394600e+06 4.988684e-01 -482 8.472274e+06 4.988539e-01 -483 8.550667e+06 4.988393e-01 -484 8.629785e+06 4.988245e-01 -485 8.709636e+06 4.988095e-01 -486 8.790225e+06 4.987944e-01 -487 8.871560e+06 4.987790e-01 -488 8.953648e+06 4.987636e-01 -489 9.036495e+06 4.987479e-01 -490 9.120108e+06 4.987321e-01 -491 9.204496e+06 4.987161e-01 -492 9.289664e+06 4.986999e-01 -493 9.375620e+06 4.986836e-01 -494 9.462372e+06 4.986670e-01 -495 9.549926e+06 4.986503e-01 -496 9.638290e+06 4.986335e-01 -497 9.727472e+06 4.986164e-01 -498 9.817479e+06 4.985992e-01 -499 9.908319e+06 4.985819e-01 -500 1.000000e+07 4.985643e-01 -501 1.009253e+07 4.985466e-01 -502 1.018591e+07 4.985287e-01 -503 1.028016e+07 4.985106e-01 -504 1.037528e+07 4.984924e-01 -505 1.047129e+07 4.984740e-01 -506 1.056818e+07 4.984554e-01 -507 1.066596e+07 4.984367e-01 -508 1.076465e+07 4.984178e-01 -509 1.086426e+07 4.983987e-01 -510 1.096478e+07 4.983795e-01 -511 1.106624e+07 4.983601e-01 -512 1.116863e+07 4.983405e-01 -513 1.127197e+07 4.983208e-01 -514 1.137627e+07 4.983009e-01 -515 1.148154e+07 4.982808e-01 -516 1.158777e+07 4.982606e-01 -517 1.169499e+07 4.982403e-01 -518 1.180321e+07 4.982197e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.981991e-01 -520 1.202264e+07 4.981782e-01 -521 1.213389e+07 4.981572e-01 -522 1.224616e+07 4.981361e-01 -523 1.235947e+07 4.981148e-01 -524 1.247384e+07 4.980934e-01 -525 1.258925e+07 4.980718e-01 -526 1.270574e+07 4.980501e-01 -527 1.282331e+07 4.980282e-01 -528 1.294196e+07 4.980062e-01 -529 1.306171e+07 4.979841e-01 -530 1.318257e+07 4.979618e-01 -531 1.330454e+07 4.979394e-01 -532 1.342765e+07 4.979168e-01 -533 1.355189e+07 4.978942e-01 -534 1.367729e+07 4.978714e-01 -535 1.380384e+07 4.978485e-01 -536 1.393157e+07 4.978254e-01 -537 1.406048e+07 4.978022e-01 -538 1.419058e+07 4.977789e-01 -539 1.432188e+07 4.977555e-01 -540 1.445440e+07 4.977320e-01 -541 1.458814e+07 4.977084e-01 -542 1.472313e+07 4.976847e-01 -543 1.485936e+07 4.976608e-01 -544 1.499685e+07 4.976369e-01 -545 1.513561e+07 4.976128e-01 -546 1.527566e+07 4.975887e-01 -547 1.541700e+07 4.975645e-01 -548 1.555966e+07 4.975401e-01 -549 1.570363e+07 4.975157e-01 -550 1.584893e+07 4.974912e-01 -551 1.599558e+07 4.974666e-01 -552 1.614359e+07 4.974419e-01 -553 1.629296e+07 4.974172e-01 -554 1.644372e+07 4.973924e-01 -555 1.659587e+07 4.973674e-01 -556 1.674943e+07 4.973425e-01 -557 1.690441e+07 4.973174e-01 -558 1.706082e+07 4.972923e-01 -559 1.721869e+07 4.972671e-01 -560 1.737801e+07 4.972419e-01 -561 1.753881e+07 4.972166e-01 -562 1.770109e+07 4.971913e-01 -563 1.786488e+07 4.971659e-01 -564 1.803018e+07 4.971404e-01 -565 1.819701e+07 4.971149e-01 -566 1.836538e+07 4.970894e-01 -567 1.853532e+07 4.970638e-01 -568 1.870682e+07 4.970382e-01 -569 1.887991e+07 4.970125e-01 -570 1.905461e+07 4.969868e-01 -571 1.923092e+07 4.969611e-01 -572 1.940886e+07 4.969353e-01 -573 1.958845e+07 4.969095e-01 -574 1.976970e+07 4.968837e-01 -575 1.995262e+07 4.968578e-01 -576 2.013724e+07 4.968320e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.968061e-01 -578 2.051162e+07 4.967802e-01 -579 2.070141e+07 4.967543e-01 -580 2.089296e+07 4.967283e-01 -581 2.108628e+07 4.967024e-01 -582 2.128139e+07 4.966764e-01 -583 2.147830e+07 4.966505e-01 -584 2.167704e+07 4.966245e-01 -585 2.187762e+07 4.965985e-01 -586 2.208005e+07 4.965725e-01 -587 2.228435e+07 4.965465e-01 -588 2.249055e+07 4.965205e-01 -589 2.269865e+07 4.964946e-01 -590 2.290868e+07 4.964686e-01 -591 2.312065e+07 4.964426e-01 -592 2.333458e+07 4.964166e-01 -593 2.355049e+07 4.963906e-01 -594 2.376840e+07 4.963647e-01 -595 2.398833e+07 4.963387e-01 -596 2.421029e+07 4.963127e-01 -597 2.443431e+07 4.962868e-01 -598 2.466039e+07 4.962608e-01 -599 2.488857e+07 4.962349e-01 -600 2.511886e+07 4.962090e-01 -601 2.535129e+07 4.961830e-01 -602 2.558586e+07 4.961571e-01 -603 2.582260e+07 4.961312e-01 -604 2.606154e+07 4.961054e-01 -605 2.630268e+07 4.960795e-01 -606 2.654606e+07 4.960536e-01 -607 2.679168e+07 4.960277e-01 -608 2.703958e+07 4.960019e-01 -609 2.728978e+07 4.959760e-01 -610 2.754229e+07 4.959502e-01 -611 2.779713e+07 4.959244e-01 -612 2.805434e+07 4.958986e-01 -613 2.831392e+07 4.958728e-01 -614 2.857591e+07 4.958470e-01 -615 2.884032e+07 4.958212e-01 -616 2.910717e+07 4.957954e-01 -617 2.937650e+07 4.957696e-01 -618 2.964831e+07 4.957438e-01 -619 2.992265e+07 4.957180e-01 -620 3.019952e+07 4.956922e-01 -621 3.047895e+07 4.956664e-01 -622 3.076097e+07 4.956406e-01 -623 3.104560e+07 4.956148e-01 -624 3.133286e+07 4.955891e-01 -625 3.162278e+07 4.955633e-01 -626 3.191538e+07 4.955375e-01 -627 3.221069e+07 4.955116e-01 -628 3.250873e+07 4.954858e-01 -629 3.280953e+07 4.954600e-01 -630 3.311311e+07 4.954341e-01 -631 3.341950e+07 4.954083e-01 -632 3.372873e+07 4.953824e-01 -633 3.404082e+07 4.953565e-01 -634 3.435579e+07 4.953306e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.953046e-01 -636 3.499452e+07 4.952787e-01 -637 3.531832e+07 4.952527e-01 -638 3.564511e+07 4.952267e-01 -639 3.597493e+07 4.952006e-01 -640 3.630781e+07 4.951746e-01 -641 3.664376e+07 4.951485e-01 -642 3.698282e+07 4.951223e-01 -643 3.732502e+07 4.950962e-01 -644 3.767038e+07 4.950699e-01 -645 3.801894e+07 4.950437e-01 -646 3.837072e+07 4.950174e-01 -647 3.872576e+07 4.949910e-01 -648 3.908409e+07 4.949647e-01 -649 3.944573e+07 4.949382e-01 -650 3.981072e+07 4.949117e-01 -651 4.017908e+07 4.948852e-01 -652 4.055085e+07 4.948586e-01 -653 4.092607e+07 4.948319e-01 -654 4.130475e+07 4.948052e-01 -655 4.168694e+07 4.947785e-01 -656 4.207266e+07 4.947517e-01 -657 4.246196e+07 4.947248e-01 -658 4.285485e+07 4.946978e-01 -659 4.325138e+07 4.946708e-01 -660 4.365158e+07 4.946437e-01 -661 4.405549e+07 4.946166e-01 -662 4.446313e+07 4.945893e-01 -663 4.487454e+07 4.945620e-01 -664 4.528976e+07 4.945347e-01 -665 4.570882e+07 4.945072e-01 -666 4.613176e+07 4.944797e-01 -667 4.655861e+07 4.944521e-01 -668 4.698941e+07 4.944244e-01 -669 4.742420e+07 4.943967e-01 -670 4.786301e+07 4.943689e-01 -671 4.830588e+07 4.943410e-01 -672 4.875285e+07 4.943130e-01 -673 4.920395e+07 4.942849e-01 -674 4.965923e+07 4.942568e-01 -675 5.011872e+07 4.942285e-01 -676 5.058247e+07 4.942002e-01 -677 5.105050e+07 4.941718e-01 -678 5.152286e+07 4.941434e-01 -679 5.199960e+07 4.941148e-01 -680 5.248075e+07 4.940862e-01 -681 5.296634e+07 4.940575e-01 -682 5.345644e+07 4.940287e-01 -683 5.395106e+07 4.939998e-01 -684 5.445027e+07 4.939709e-01 -685 5.495409e+07 4.939418e-01 -686 5.546257e+07 4.939127e-01 -687 5.597576e+07 4.938836e-01 -688 5.649370e+07 4.938543e-01 -689 5.701643e+07 4.938250e-01 -690 5.754399e+07 4.937956e-01 -691 5.807644e+07 4.937661e-01 -692 5.861382e+07 4.937366e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.937070e-01 -694 5.970353e+07 4.936774e-01 -695 6.025596e+07 4.936477e-01 -696 6.081350e+07 4.936179e-01 -697 6.137620e+07 4.935881e-01 -698 6.194411e+07 4.935582e-01 -699 6.251727e+07 4.935283e-01 -700 6.309573e+07 4.934983e-01 -701 6.367955e+07 4.934683e-01 -702 6.426877e+07 4.934383e-01 -703 6.486344e+07 4.934082e-01 -704 6.546362e+07 4.933781e-01 -705 6.606934e+07 4.933479e-01 -706 6.668068e+07 4.933178e-01 -707 6.729767e+07 4.932876e-01 -708 6.792036e+07 4.932574e-01 -709 6.854882e+07 4.932272e-01 -710 6.918310e+07 4.931969e-01 -711 6.982324e+07 4.931667e-01 -712 7.046931e+07 4.931365e-01 -713 7.112135e+07 4.931063e-01 -714 7.177943e+07 4.930761e-01 -715 7.244360e+07 4.930459e-01 -716 7.311391e+07 4.930157e-01 -717 7.379042e+07 4.929855e-01 -718 7.447320e+07 4.929554e-01 -719 7.516229e+07 4.929253e-01 -720 7.585776e+07 4.928952e-01 -721 7.655966e+07 4.928651e-01 -722 7.726806e+07 4.928351e-01 -723 7.798301e+07 4.928052e-01 -724 7.870458e+07 4.927753e-01 -725 7.943282e+07 4.927454e-01 -726 8.016781e+07 4.927156e-01 -727 8.090959e+07 4.926858e-01 -728 8.165824e+07 4.926561e-01 -729 8.241381e+07 4.926265e-01 -730 8.317638e+07 4.925969e-01 -731 8.394600e+07 4.925674e-01 -732 8.472274e+07 4.925379e-01 -733 8.550667e+07 4.925085e-01 -734 8.629785e+07 4.924792e-01 -735 8.709636e+07 4.924499e-01 -736 8.790225e+07 4.924207e-01 -737 8.871560e+07 4.923915e-01 -738 8.953648e+07 4.923624e-01 -739 9.036495e+07 4.923333e-01 -740 9.120108e+07 4.923043e-01 -741 9.204496e+07 4.922753e-01 -742 9.289664e+07 4.922463e-01 -743 9.375620e+07 4.922174e-01 -744 9.462372e+07 4.921884e-01 -745 9.549926e+07 4.921595e-01 -746 9.638290e+07 4.921306e-01 -747 9.727472e+07 4.921016e-01 -748 9.817479e+07 4.920727e-01 -749 9.908319e+07 4.920436e-01 -750 1.000000e+08 4.920146e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.919854e-01 -752 1.018591e+08 4.919561e-01 -753 1.028016e+08 4.919268e-01 -754 1.037528e+08 4.918973e-01 -755 1.047129e+08 4.918676e-01 -756 1.056818e+08 4.918378e-01 -757 1.066596e+08 4.918077e-01 -758 1.076465e+08 4.917774e-01 -759 1.086426e+08 4.917469e-01 -760 1.096478e+08 4.917160e-01 -761 1.106624e+08 4.916848e-01 -762 1.116863e+08 4.916533e-01 -763 1.127197e+08 4.916213e-01 -764 1.137627e+08 4.915890e-01 -765 1.148154e+08 4.915561e-01 -766 1.158777e+08 4.915227e-01 -767 1.169499e+08 4.914888e-01 -768 1.180321e+08 4.914542e-01 -769 1.191242e+08 4.914190e-01 -770 1.202264e+08 4.913831e-01 -771 1.213389e+08 4.913465e-01 -772 1.224616e+08 4.913090e-01 -773 1.235947e+08 4.912707e-01 -774 1.247384e+08 4.912315e-01 -775 1.258925e+08 4.911913e-01 -776 1.270574e+08 4.911501e-01 -777 1.282331e+08 4.911079e-01 -778 1.294196e+08 4.910645e-01 -779 1.306171e+08 4.910199e-01 -780 1.318257e+08 4.909741e-01 -781 1.330454e+08 4.909269e-01 -782 1.342765e+08 4.908784e-01 -783 1.355189e+08 4.908285e-01 -784 1.367729e+08 4.907771e-01 -785 1.380384e+08 4.907241e-01 -786 1.393157e+08 4.906695e-01 -787 1.406048e+08 4.906133e-01 -788 1.419058e+08 4.905554e-01 -789 1.432188e+08 4.904957e-01 -790 1.445440e+08 4.904342e-01 -791 1.458814e+08 4.903709e-01 -792 1.472313e+08 4.903056e-01 -793 1.485936e+08 4.902384e-01 -794 1.499685e+08 4.901692e-01 -795 1.513561e+08 4.900980e-01 -796 1.527566e+08 4.900248e-01 -797 1.541700e+08 4.899495e-01 -798 1.555966e+08 4.898721e-01 -799 1.570363e+08 4.897926e-01 -800 1.584893e+08 4.897111e-01 -801 1.599558e+08 4.896274e-01 -802 1.614359e+08 4.895416e-01 -803 1.629296e+08 4.894538e-01 -804 1.644372e+08 4.893639e-01 -805 1.659587e+08 4.892720e-01 -806 1.674943e+08 4.891780e-01 -807 1.690441e+08 4.890822e-01 -808 1.706082e+08 4.889845e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.888850e-01 -810 1.737801e+08 4.887837e-01 -811 1.753881e+08 4.886809e-01 -812 1.770109e+08 4.885764e-01 -813 1.786488e+08 4.884706e-01 -814 1.803018e+08 4.883634e-01 -815 1.819701e+08 4.882550e-01 -816 1.836538e+08 4.881456e-01 -817 1.853532e+08 4.880352e-01 -818 1.870682e+08 4.879242e-01 -819 1.887991e+08 4.878125e-01 -820 1.905461e+08 4.877004e-01 -821 1.923092e+08 4.875881e-01 -822 1.940886e+08 4.874757e-01 -823 1.958845e+08 4.873635e-01 -824 1.976970e+08 4.872516e-01 -825 1.995262e+08 4.871403e-01 -826 2.013724e+08 4.870298e-01 -827 2.032357e+08 4.869202e-01 -828 2.051162e+08 4.868117e-01 -829 2.070141e+08 4.867047e-01 -830 2.089296e+08 4.865992e-01 -831 2.108628e+08 4.864955e-01 -832 2.128139e+08 4.863938e-01 -833 2.147830e+08 4.862942e-01 -834 2.167704e+08 4.861970e-01 -835 2.187762e+08 4.861023e-01 -836 2.208005e+08 4.860102e-01 -837 2.228435e+08 4.859209e-01 -838 2.249055e+08 4.858345e-01 -839 2.269865e+08 4.857511e-01 -840 2.290868e+08 4.856707e-01 -841 2.312065e+08 4.855934e-01 -842 2.333458e+08 4.855193e-01 -843 2.355049e+08 4.854483e-01 -844 2.376840e+08 4.853804e-01 -845 2.398833e+08 4.853155e-01 -846 2.421029e+08 4.852535e-01 -847 2.443431e+08 4.851943e-01 -848 2.466039e+08 4.851378e-01 -849 2.488857e+08 4.850836e-01 -850 2.511886e+08 4.850317e-01 -851 2.535129e+08 4.849817e-01 -852 2.558586e+08 4.849333e-01 -853 2.582260e+08 4.848862e-01 -854 2.606154e+08 4.848400e-01 -855 2.630268e+08 4.847944e-01 -856 2.654606e+08 4.847490e-01 -857 2.679168e+08 4.847032e-01 -858 2.703958e+08 4.846567e-01 -859 2.728978e+08 4.846090e-01 -860 2.754229e+08 4.845597e-01 -861 2.779713e+08 4.845082e-01 -862 2.805434e+08 4.844542e-01 -863 2.831392e+08 4.843971e-01 -864 2.857591e+08 4.843366e-01 -865 2.884032e+08 4.842722e-01 -866 2.910717e+08 4.842036e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.841304e-01 -868 2.964831e+08 4.840525e-01 -869 2.992265e+08 4.839695e-01 -870 3.019952e+08 4.838813e-01 -871 3.047895e+08 4.837878e-01 -872 3.076097e+08 4.836890e-01 -873 3.104560e+08 4.835851e-01 -874 3.133286e+08 4.834761e-01 -875 3.162278e+08 4.833623e-01 -876 3.191538e+08 4.832441e-01 -877 3.221069e+08 4.831218e-01 -878 3.250873e+08 4.829961e-01 -879 3.280953e+08 4.828675e-01 -880 3.311311e+08 4.827367e-01 -881 3.341950e+08 4.826045e-01 -882 3.372873e+08 4.824716e-01 -883 3.404082e+08 4.823391e-01 -884 3.435579e+08 4.822078e-01 -885 3.467369e+08 4.820787e-01 -886 3.499452e+08 4.819526e-01 -887 3.531832e+08 4.818307e-01 -888 3.564511e+08 4.817138e-01 -889 3.597493e+08 4.816028e-01 -890 3.630781e+08 4.814985e-01 -891 3.664376e+08 4.814016e-01 -892 3.698282e+08 4.813128e-01 -893 3.732502e+08 4.812325e-01 -894 3.767038e+08 4.811611e-01 -895 3.801894e+08 4.810987e-01 -896 3.837072e+08 4.810453e-01 -897 3.872576e+08 4.810008e-01 -898 3.908409e+08 4.809647e-01 -899 3.944573e+08 4.809364e-01 -900 3.981072e+08 4.809151e-01 -901 4.017908e+08 4.808999e-01 -902 4.055085e+08 4.808894e-01 -903 4.092607e+08 4.808825e-01 -904 4.130475e+08 4.808776e-01 -905 4.168694e+08 4.808731e-01 -906 4.207266e+08 4.808674e-01 -907 4.246196e+08 4.808588e-01 -908 4.285485e+08 4.808455e-01 -909 4.325138e+08 4.808261e-01 -910 4.365158e+08 4.807989e-01 -911 4.405549e+08 4.807628e-01 -912 4.446313e+08 4.807165e-01 -913 4.487454e+08 4.806594e-01 -914 4.528976e+08 4.805908e-01 -915 4.570882e+08 4.805107e-01 -916 4.613176e+08 4.804193e-01 -917 4.655861e+08 4.803172e-01 -918 4.698941e+08 4.802054e-01 -919 4.742420e+08 4.800855e-01 -920 4.786301e+08 4.799592e-01 -921 4.830588e+08 4.798286e-01 -922 4.875285e+08 4.796961e-01 -923 4.920395e+08 4.795643e-01 -924 4.965923e+08 4.794359e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.793136e-01 -926 5.058247e+08 4.792001e-01 -927 5.105050e+08 4.790977e-01 -928 5.152286e+08 4.790087e-01 -929 5.199960e+08 4.789347e-01 -930 5.248075e+08 4.788770e-01 -931 5.296634e+08 4.788362e-01 -932 5.345644e+08 4.788122e-01 -933 5.395106e+08 4.788043e-01 -934 5.445027e+08 4.788111e-01 -935 5.495409e+08 4.788304e-01 -936 5.546257e+08 4.788595e-01 -937 5.597576e+08 4.788949e-01 -938 5.649370e+08 4.789330e-01 -939 5.701643e+08 4.789697e-01 -940 5.754399e+08 4.790008e-01 -941 5.807644e+08 4.790223e-01 -942 5.861382e+08 4.790305e-01 -943 5.915616e+08 4.790223e-01 -944 5.970353e+08 4.789951e-01 -945 6.025596e+08 4.789477e-01 -946 6.081350e+08 4.788795e-01 -947 6.137620e+08 4.787914e-01 -948 6.194411e+08 4.786853e-01 -949 6.251727e+08 4.785646e-01 -950 6.309573e+08 4.784333e-01 -951 6.367955e+08 4.782964e-01 -952 6.426877e+08 4.781598e-01 -953 6.486344e+08 4.780292e-01 -954 6.546362e+08 4.779106e-01 -955 6.606934e+08 4.778093e-01 -956 6.668068e+08 4.777298e-01 -957 6.729767e+08 4.776755e-01 -958 6.792036e+08 4.776481e-01 -959 6.854882e+08 4.776477e-01 -960 6.918310e+08 4.776726e-01 -961 6.982324e+08 4.777190e-01 -962 7.046931e+08 4.777817e-01 -963 7.112135e+08 4.778539e-01 -964 7.177943e+08 4.779278e-01 -965 7.244360e+08 4.779952e-01 -966 7.311391e+08 4.780480e-01 -967 7.379042e+08 4.780790e-01 -968 7.447320e+08 4.780822e-01 -969 7.516229e+08 4.780542e-01 -970 7.585776e+08 4.779936e-01 -971 7.655966e+08 4.779022e-01 -972 7.726806e+08 4.777844e-01 -973 7.798301e+08 4.776474e-01 -974 7.870458e+08 4.775002e-01 -975 7.943282e+08 4.773535e-01 -976 8.016781e+08 4.772184e-01 -977 8.090959e+08 4.771052e-01 -978 8.165824e+08 4.770228e-01 -979 8.241381e+08 4.769775e-01 -980 8.317638e+08 4.769720e-01 -981 8.394600e+08 4.770053e-01 -982 8.472274e+08 4.770722e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.771638e-01 -984 8.629785e+08 4.772681e-01 -985 8.709636e+08 4.773711e-01 -986 8.790225e+08 4.774583e-01 -987 8.871560e+08 4.775166e-01 -988 8.953648e+08 4.775354e-01 -989 9.036495e+08 4.775086e-01 -990 9.120108e+08 4.774354e-01 -991 9.204496e+08 4.773208e-01 -992 9.289664e+08 4.771752e-01 -993 9.375620e+08 4.770137e-01 -994 9.462372e+08 4.768540e-01 -995 9.549926e+08 4.767144e-01 -996 9.638290e+08 4.766115e-01 -997 9.727472e+08 4.765574e-01 -998 9.817479e+08 4.765581e-01 -999 9.908319e+08 4.766122e-01 -1000 1.000000e+09 4.767105e-01 - -CPU time since last call: 0.041 seconds. - -Total CPU time: 0.041 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4827.359375 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 770.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec deleted file mode 100644 index 42c3f45..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901002_V33 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec deleted file mode 100644 index 190283b..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/TP_AWG_22_ESCC_3901002_V33_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901002_V33_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/analytic_solution.dat_reference deleted file mode 100644 index 1fbbf56..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49955664102703773 -2.6220581254663756E-003 - 100926.21909870484 0.49955591703601465 -2.6459226481131484E-003 - 101861.01701559752 0.49955518182586189 -2.6699978476682159E-003 - 102804.47320933097 0.49955443526029830 -2.6942854457316671E-003 - 103756.66787451849 0.49955367720262839 -2.7187871758031180E-003 - 104717.68194855202 0.49955290751578563 -2.7435047833643811E-003 - 105687.59711848051 0.49955212606237875 -2.7684400259648293E-003 - 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0.46600009226675820 1.4439826423534936 - 534229329.95383632 0.46656332077047047 1.3444418767545485 - 539177464.03874946 0.46744198322058034 1.2436356512278814 - 544171428.68658876 0.46860824979588428 1.1414162983177758 - 549211648.38877892 0.47002064182585135 1.0376466582223269 - 554298551.56846750 0.47162407425550534 0.93220662133601528 - 559432570.61693895 0.47335055398067183 0.82500000495054904 - 564614141.93036616 0.47512075121480946 0.71596143209634067 - 569843705.94691360 0.47684664320901998 0.60506272116097848 - 575121707.18416142 0.47843535835686329 0.49231813967249050 - 580448594.27689838 0.47979421341587164 0.37778776295874028 - 585824820.01525474 0.48083674077525596 0.26157815587448785 - 591250841.38318694 0.48148927146817982 0.14383970877234842 - 596727119.59733105 0.48169742174244279 2.4760233058974904E-002 - 602254120.14619279 0.48143169086845522 -9.5445155478764643E-002 - 607832312.82972360 0.48069137583734955 -0.21654732704507071 - 613462171.79925191 0.47950617514104632 -0.33831856862517246 - 619144175.59778345 0.47793516941498976 -0.46054876078367329 - 624878807.20068884 0.47606326036057151 -0.58306077178032500 - 630666554.05674052 0.47399552033265946 -0.70572366607721215 - 636507908.12955773 0.47185015948991549 -0.82846266979170791 - 642403365.93942034 0.46975090236825690 -0.95126530235414797 - 648353428.60547137 0.46781948358430514 -1.0741835512605513 - 654358601.88832295 0.46616877237143722 -1.1973323328867220 - 660419396.23303056 0.46489678983196592 -1.3208846887230261 - 666536326.81249201 0.46408166040376309 -1.4450642059358991 - 672709913.57123506 0.46377739017020486 -1.5701350582319629 - 678940681.26960981 0.46401031589946129 -1.6963898975063985 - 685229159.52840579 0.46477612716360528 -1.8241356600920970 - 691575882.87385249 0.46603752264491904 -1.9536772581568731 - 697981390.78306675 0.46772280114958326 -2.0852991802699523 - 704446227.72990513 0.46972596968209390 -2.2192452910266462 - 710970943.23124242 0.47190920687694204 -2.3556976395721860 - 717556091.89369214 0.47410864237066036 -2.4947558469144862 - 724202233.46073151 0.47614426161916407 -2.6364195284888705 - 730909932.86029184 0.47783419205770034 -2.7805769723856781 - 737679760.25277460 0.47901263650252363 -2.9270035623067296 - 744512291.07951283 0.47954945527863585 -3.0753728162648448 - 751408106.11169624 0.47936826057575455 3.0579041060737593 - 758367791.49971902 0.47845941177560791 2.9069000262582727 - 765391938.82301557 0.47688489604673712 2.7552383556880602 - 772481145.14034164 0.47477372552387226 2.6033048402142023 - 779636013.04052210 0.47230864048359217 2.4513908408333203 - 786857150.69368434 0.46970675328603956 2.2996618737137200 - 794145171.90293396 0.46719763573311057 2.1481398706641253 - 801500696.15654135 0.46500207286375794 1.9966996682562772 - 808924348.68059552 0.46331361479890620 1.8450782332236988 - 816416760.49214554 0.46228373534444994 1.6928942223639016 - 823978568.45285118 0.46201037182520494 1.5396756028691201 - 831610415.32309616 0.46252917093786805 1.3848938231602657 - 839312949.81663728 0.46380697119408160 1.2280038829855215 - 847086826.65574193 0.46573782996728247 1.0684900612221335 - 854932706.62683666 0.46814305080235713 0.90591654569163704 - 862851256.63668871 0.47077782433812149 0.73998044849235289 - 870843149.76907241 0.47334767041566167 0.57056170443548204 - 878909065.34199631 0.47553706833543308 0.39776081923179651 - 887049688.96544206 0.47704983798327577 0.22191293990932129 - 895265712.59963822 0.47765617415975126 4.3567485981716517E-002 - 903557834.61389208 0.47723640257313504 -0.13657168085657470 - 911926759.84592986 0.47580936621439657 -0.31774038275445921 - 920373199.66182303 0.47353615956330380 -0.49922639500737054 - 928897872.01645172 0.47069727132785688 -0.68047721062912780 - 937501501.51452708 0.46764952068371901 -0.86118211318932603 - 946184819.47219920 0.46477415527201976 -1.0413158049292488 - 954948563.97919667 0.46242714890493980 -1.2211415496889322 - 963793479.96157956 0.46089846996988343 -1.4011797615756532 - 972720319.24505568 0.46038200092731058 -1.5821508080412958 - 981729840.61888206 0.46095449158218643 -1.7648992568107549 - 990822809.90037870 0.46256151403639845 -1.9503034730999347 - 1000000000.0000000 0.46501064252203400 -2.1391723089149624 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/result_comparison.dat_reference deleted file mode 100644 index 96723a9..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00208061 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/spice_solution.dat_reference deleted file mode 100644 index f278f7a..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:50:50 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.997326e-01 -1 1.009253e+05 4.997326e-01 -2 1.018591e+05 4.997326e-01 -3 1.028016e+05 4.997326e-01 -4 1.037528e+05 4.997326e-01 -5 1.047129e+05 4.997326e-01 -6 1.056818e+05 4.997326e-01 -7 1.066596e+05 4.997325e-01 -8 1.076465e+05 4.997325e-01 -9 1.086426e+05 4.997325e-01 -10 1.096478e+05 4.997325e-01 -11 1.106624e+05 4.997325e-01 -12 1.116863e+05 4.997325e-01 -13 1.127197e+05 4.997325e-01 -14 1.137627e+05 4.997325e-01 -15 1.148154e+05 4.997325e-01 -16 1.158777e+05 4.997325e-01 -17 1.169499e+05 4.997325e-01 -18 1.180321e+05 4.997325e-01 -19 1.191242e+05 4.997325e-01 -20 1.202264e+05 4.997325e-01 -21 1.213389e+05 4.997325e-01 -22 1.224616e+05 4.997325e-01 -23 1.235947e+05 4.997325e-01 -24 1.247384e+05 4.997324e-01 -25 1.258925e+05 4.997324e-01 -26 1.270574e+05 4.997324e-01 -27 1.282331e+05 4.997324e-01 -28 1.294196e+05 4.997324e-01 -29 1.306171e+05 4.997324e-01 -30 1.318257e+05 4.997324e-01 -31 1.330454e+05 4.997324e-01 -32 1.342765e+05 4.997324e-01 -33 1.355189e+05 4.997324e-01 -34 1.367729e+05 4.997324e-01 -35 1.380384e+05 4.997324e-01 -36 1.393157e+05 4.997323e-01 -37 1.406048e+05 4.997323e-01 -38 1.419058e+05 4.997323e-01 -39 1.432188e+05 4.997323e-01 -40 1.445440e+05 4.997323e-01 -41 1.458814e+05 4.997323e-01 -42 1.472313e+05 4.997323e-01 -43 1.485936e+05 4.997323e-01 -44 1.499685e+05 4.997323e-01 -45 1.513561e+05 4.997323e-01 -46 1.527566e+05 4.997322e-01 -47 1.541700e+05 4.997322e-01 -48 1.555966e+05 4.997322e-01 -49 1.570363e+05 4.997322e-01 -50 1.584893e+05 4.997322e-01 -51 1.599558e+05 4.997322e-01 -52 1.614359e+05 4.997322e-01 -53 1.629296e+05 4.997322e-01 -54 1.644372e+05 4.997322e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.997321e-01 -56 1.674943e+05 4.997321e-01 -57 1.690441e+05 4.997321e-01 -58 1.706082e+05 4.997321e-01 -59 1.721869e+05 4.997321e-01 -60 1.737801e+05 4.997321e-01 -61 1.753881e+05 4.997321e-01 -62 1.770109e+05 4.997320e-01 -63 1.786488e+05 4.997320e-01 -64 1.803018e+05 4.997320e-01 -65 1.819701e+05 4.997320e-01 -66 1.836538e+05 4.997320e-01 -67 1.853532e+05 4.997320e-01 -68 1.870682e+05 4.997320e-01 -69 1.887991e+05 4.997319e-01 -70 1.905461e+05 4.997319e-01 -71 1.923092e+05 4.997319e-01 -72 1.940886e+05 4.997319e-01 -73 1.958845e+05 4.997319e-01 -74 1.976970e+05 4.997319e-01 -75 1.995262e+05 4.997318e-01 -76 2.013724e+05 4.997318e-01 -77 2.032357e+05 4.997318e-01 -78 2.051162e+05 4.997318e-01 -79 2.070141e+05 4.997318e-01 -80 2.089296e+05 4.997317e-01 -81 2.108628e+05 4.997317e-01 -82 2.128139e+05 4.997317e-01 -83 2.147830e+05 4.997317e-01 -84 2.167704e+05 4.997317e-01 -85 2.187762e+05 4.997316e-01 -86 2.208005e+05 4.997316e-01 -87 2.228435e+05 4.997316e-01 -88 2.249055e+05 4.997316e-01 -89 2.269865e+05 4.997315e-01 -90 2.290868e+05 4.997315e-01 -91 2.312065e+05 4.997315e-01 -92 2.333458e+05 4.997315e-01 -93 2.355049e+05 4.997314e-01 -94 2.376840e+05 4.997314e-01 -95 2.398833e+05 4.997314e-01 -96 2.421029e+05 4.997314e-01 -97 2.443431e+05 4.997313e-01 -98 2.466039e+05 4.997313e-01 -99 2.488857e+05 4.997313e-01 -100 2.511886e+05 4.997312e-01 -101 2.535129e+05 4.997312e-01 -102 2.558586e+05 4.997312e-01 -103 2.582260e+05 4.997312e-01 -104 2.606154e+05 4.997311e-01 -105 2.630268e+05 4.997311e-01 -106 2.654606e+05 4.997311e-01 -107 2.679168e+05 4.997310e-01 -108 2.703958e+05 4.997310e-01 -109 2.728978e+05 4.997310e-01 -110 2.754229e+05 4.997309e-01 -111 2.779713e+05 4.997309e-01 -112 2.805434e+05 4.997309e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.997308e-01 -114 2.857591e+05 4.997308e-01 -115 2.884032e+05 4.997307e-01 -116 2.910717e+05 4.997307e-01 -117 2.937650e+05 4.997307e-01 -118 2.964831e+05 4.997306e-01 -119 2.992265e+05 4.997306e-01 -120 3.019952e+05 4.997305e-01 -121 3.047895e+05 4.997305e-01 -122 3.076097e+05 4.997305e-01 -123 3.104560e+05 4.997304e-01 -124 3.133286e+05 4.997304e-01 -125 3.162278e+05 4.997303e-01 -126 3.191538e+05 4.997303e-01 -127 3.221069e+05 4.997302e-01 -128 3.250873e+05 4.997302e-01 -129 3.280953e+05 4.997301e-01 -130 3.311311e+05 4.997301e-01 -131 3.341950e+05 4.997300e-01 -132 3.372873e+05 4.997300e-01 -133 3.404082e+05 4.997299e-01 -134 3.435579e+05 4.997299e-01 -135 3.467369e+05 4.997298e-01 -136 3.499452e+05 4.997297e-01 -137 3.531832e+05 4.997297e-01 -138 3.564511e+05 4.997296e-01 -139 3.597493e+05 4.997296e-01 -140 3.630781e+05 4.997295e-01 -141 3.664376e+05 4.997295e-01 -142 3.698282e+05 4.997294e-01 -143 3.732502e+05 4.997293e-01 -144 3.767038e+05 4.997293e-01 -145 3.801894e+05 4.997292e-01 -146 3.837072e+05 4.997291e-01 -147 3.872576e+05 4.997291e-01 -148 3.908409e+05 4.997290e-01 -149 3.944573e+05 4.997289e-01 -150 3.981072e+05 4.997288e-01 -151 4.017908e+05 4.997288e-01 -152 4.055085e+05 4.997287e-01 -153 4.092607e+05 4.997286e-01 -154 4.130475e+05 4.997285e-01 -155 4.168694e+05 4.997285e-01 -156 4.207266e+05 4.997284e-01 -157 4.246196e+05 4.997283e-01 -158 4.285485e+05 4.997282e-01 -159 4.325138e+05 4.997281e-01 -160 4.365158e+05 4.997280e-01 -161 4.405549e+05 4.997279e-01 -162 4.446313e+05 4.997279e-01 -163 4.487454e+05 4.997278e-01 -164 4.528976e+05 4.997277e-01 -165 4.570882e+05 4.997276e-01 -166 4.613176e+05 4.997275e-01 -167 4.655861e+05 4.997274e-01 -168 4.698941e+05 4.997273e-01 -169 4.742420e+05 4.997272e-01 -170 4.786301e+05 4.997271e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.997270e-01 -172 4.875285e+05 4.997268e-01 -173 4.920395e+05 4.997267e-01 -174 4.965923e+05 4.997266e-01 -175 5.011872e+05 4.997265e-01 -176 5.058247e+05 4.997264e-01 -177 5.105050e+05 4.997263e-01 -178 5.152286e+05 4.997261e-01 -179 5.199960e+05 4.997260e-01 -180 5.248075e+05 4.997259e-01 -181 5.296634e+05 4.997258e-01 -182 5.345644e+05 4.997256e-01 -183 5.395106e+05 4.997255e-01 -184 5.445027e+05 4.997254e-01 -185 5.495409e+05 4.997252e-01 -186 5.546257e+05 4.997251e-01 -187 5.597576e+05 4.997249e-01 -188 5.649370e+05 4.997248e-01 -189 5.701643e+05 4.997246e-01 -190 5.754399e+05 4.997245e-01 -191 5.807644e+05 4.997243e-01 -192 5.861382e+05 4.997242e-01 -193 5.915616e+05 4.997240e-01 -194 5.970353e+05 4.997239e-01 -195 6.025596e+05 4.997237e-01 -196 6.081350e+05 4.997235e-01 -197 6.137620e+05 4.997233e-01 -198 6.194411e+05 4.997232e-01 -199 6.251727e+05 4.997230e-01 -200 6.309573e+05 4.997228e-01 -201 6.367955e+05 4.997226e-01 -202 6.426877e+05 4.997224e-01 -203 6.486344e+05 4.997222e-01 -204 6.546362e+05 4.997220e-01 -205 6.606934e+05 4.997218e-01 -206 6.668068e+05 4.997216e-01 -207 6.729767e+05 4.997214e-01 -208 6.792036e+05 4.997212e-01 -209 6.854882e+05 4.997210e-01 -210 6.918310e+05 4.997208e-01 -211 6.982324e+05 4.997206e-01 -212 7.046931e+05 4.997203e-01 -213 7.112135e+05 4.997201e-01 -214 7.177943e+05 4.997199e-01 -215 7.244360e+05 4.997196e-01 -216 7.311391e+05 4.997194e-01 -217 7.379042e+05 4.997191e-01 -218 7.447320e+05 4.997189e-01 -219 7.516229e+05 4.997186e-01 -220 7.585776e+05 4.997183e-01 -221 7.655966e+05 4.997181e-01 -222 7.726806e+05 4.997178e-01 -223 7.798301e+05 4.997175e-01 -224 7.870458e+05 4.997172e-01 -225 7.943282e+05 4.997169e-01 -226 8.016781e+05 4.997167e-01 -227 8.090959e+05 4.997164e-01 -228 8.165824e+05 4.997160e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.997157e-01 -230 8.317638e+05 4.997154e-01 -231 8.394600e+05 4.997151e-01 -232 8.472274e+05 4.997148e-01 -233 8.550667e+05 4.997144e-01 -234 8.629785e+05 4.997141e-01 -235 8.709636e+05 4.997137e-01 -236 8.790225e+05 4.997134e-01 -237 8.871560e+05 4.997130e-01 -238 8.953648e+05 4.997127e-01 -239 9.036495e+05 4.997123e-01 -240 9.120108e+05 4.997119e-01 -241 9.204496e+05 4.997115e-01 -242 9.289664e+05 4.997111e-01 -243 9.375620e+05 4.997107e-01 -244 9.462372e+05 4.997103e-01 -245 9.549926e+05 4.997099e-01 -246 9.638290e+05 4.997095e-01 -247 9.727472e+05 4.997090e-01 -248 9.817479e+05 4.997086e-01 -249 9.908319e+05 4.997081e-01 -250 1.000000e+06 4.997077e-01 -251 1.009253e+06 4.997072e-01 -252 1.018591e+06 4.997067e-01 -253 1.028016e+06 4.997062e-01 -254 1.037528e+06 4.997058e-01 -255 1.047129e+06 4.997053e-01 -256 1.056818e+06 4.997047e-01 -257 1.066596e+06 4.997042e-01 -258 1.076465e+06 4.997037e-01 -259 1.086426e+06 4.997031e-01 -260 1.096478e+06 4.997026e-01 -261 1.106624e+06 4.997020e-01 -262 1.116863e+06 4.997015e-01 -263 1.127197e+06 4.997009e-01 -264 1.137627e+06 4.997003e-01 -265 1.148154e+06 4.996997e-01 -266 1.158777e+06 4.996991e-01 -267 1.169499e+06 4.996984e-01 -268 1.180321e+06 4.996978e-01 -269 1.191242e+06 4.996972e-01 -270 1.202264e+06 4.996965e-01 -271 1.213389e+06 4.996958e-01 -272 1.224616e+06 4.996951e-01 -273 1.235947e+06 4.996944e-01 -274 1.247384e+06 4.996937e-01 -275 1.258925e+06 4.996930e-01 -276 1.270574e+06 4.996923e-01 -277 1.282331e+06 4.996915e-01 -278 1.294196e+06 4.996908e-01 -279 1.306171e+06 4.996900e-01 -280 1.318257e+06 4.996892e-01 -281 1.330454e+06 4.996884e-01 -282 1.342765e+06 4.996875e-01 -283 1.355189e+06 4.996867e-01 -284 1.367729e+06 4.996859e-01 -285 1.380384e+06 4.996850e-01 -286 1.393157e+06 4.996841e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.996832e-01 -288 1.419058e+06 4.996823e-01 -289 1.432188e+06 4.996813e-01 -290 1.445440e+06 4.996804e-01 -291 1.458814e+06 4.996794e-01 -292 1.472313e+06 4.996784e-01 -293 1.485936e+06 4.996774e-01 -294 1.499685e+06 4.996764e-01 -295 1.513561e+06 4.996754e-01 -296 1.527566e+06 4.996743e-01 -297 1.541700e+06 4.996732e-01 -298 1.555966e+06 4.996721e-01 -299 1.570363e+06 4.996710e-01 -300 1.584893e+06 4.996698e-01 -301 1.599558e+06 4.996687e-01 -302 1.614359e+06 4.996675e-01 -303 1.629296e+06 4.996663e-01 -304 1.644372e+06 4.996651e-01 -305 1.659587e+06 4.996638e-01 -306 1.674943e+06 4.996625e-01 -307 1.690441e+06 4.996612e-01 -308 1.706082e+06 4.996599e-01 -309 1.721869e+06 4.996586e-01 -310 1.737801e+06 4.996572e-01 -311 1.753881e+06 4.996558e-01 -312 1.770109e+06 4.996544e-01 -313 1.786488e+06 4.996529e-01 -314 1.803018e+06 4.996514e-01 -315 1.819701e+06 4.996499e-01 -316 1.836538e+06 4.996484e-01 -317 1.853532e+06 4.996469e-01 -318 1.870682e+06 4.996453e-01 -319 1.887991e+06 4.996436e-01 -320 1.905461e+06 4.996420e-01 -321 1.923092e+06 4.996403e-01 -322 1.940886e+06 4.996386e-01 -323 1.958845e+06 4.996369e-01 -324 1.976970e+06 4.996351e-01 -325 1.995262e+06 4.996333e-01 -326 2.013724e+06 4.996315e-01 -327 2.032357e+06 4.996296e-01 -328 2.051162e+06 4.996277e-01 -329 2.070141e+06 4.996258e-01 -330 2.089296e+06 4.996238e-01 -331 2.108628e+06 4.996218e-01 -332 2.128139e+06 4.996198e-01 -333 2.147830e+06 4.996177e-01 -334 2.167704e+06 4.996156e-01 -335 2.187762e+06 4.996134e-01 -336 2.208005e+06 4.996112e-01 -337 2.228435e+06 4.996090e-01 -338 2.249055e+06 4.996067e-01 -339 2.269865e+06 4.996044e-01 -340 2.290868e+06 4.996020e-01 -341 2.312065e+06 4.995996e-01 -342 2.333458e+06 4.995972e-01 -343 2.355049e+06 4.995947e-01 -344 2.376840e+06 4.995921e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.995895e-01 -346 2.421029e+06 4.995869e-01 -347 2.443431e+06 4.995842e-01 -348 2.466039e+06 4.995815e-01 -349 2.488857e+06 4.995787e-01 -350 2.511886e+06 4.995759e-01 -351 2.535129e+06 4.995730e-01 -352 2.558586e+06 4.995701e-01 -353 2.582260e+06 4.995671e-01 -354 2.606154e+06 4.995641e-01 -355 2.630268e+06 4.995610e-01 -356 2.654606e+06 4.995578e-01 -357 2.679168e+06 4.995546e-01 -358 2.703958e+06 4.995514e-01 -359 2.728978e+06 4.995481e-01 -360 2.754229e+06 4.995447e-01 -361 2.779713e+06 4.995412e-01 -362 2.805434e+06 4.995377e-01 -363 2.831392e+06 4.995342e-01 -364 2.857591e+06 4.995305e-01 -365 2.884032e+06 4.995269e-01 -366 2.910717e+06 4.995231e-01 -367 2.937650e+06 4.995193e-01 -368 2.964831e+06 4.995154e-01 -369 2.992265e+06 4.995114e-01 -370 3.019952e+06 4.995074e-01 -371 3.047895e+06 4.995033e-01 -372 3.076097e+06 4.994991e-01 -373 3.104560e+06 4.994948e-01 -374 3.133286e+06 4.994905e-01 -375 3.162278e+06 4.994861e-01 -376 3.191538e+06 4.994816e-01 -377 3.221069e+06 4.994770e-01 -378 3.250873e+06 4.994724e-01 -379 3.280953e+06 4.994676e-01 -380 3.311311e+06 4.994628e-01 -381 3.341950e+06 4.994579e-01 -382 3.372873e+06 4.994529e-01 -383 3.404082e+06 4.994479e-01 -384 3.435579e+06 4.994427e-01 -385 3.467369e+06 4.994374e-01 -386 3.499452e+06 4.994321e-01 -387 3.531832e+06 4.994266e-01 -388 3.564511e+06 4.994211e-01 -389 3.597493e+06 4.994155e-01 -390 3.630781e+06 4.994097e-01 -391 3.664376e+06 4.994039e-01 -392 3.698282e+06 4.993979e-01 -393 3.732502e+06 4.993919e-01 -394 3.767038e+06 4.993858e-01 -395 3.801894e+06 4.993795e-01 -396 3.837072e+06 4.993731e-01 -397 3.872576e+06 4.993666e-01 -398 3.908409e+06 4.993601e-01 -399 3.944573e+06 4.993534e-01 -400 3.981072e+06 4.993465e-01 -401 4.017908e+06 4.993396e-01 -402 4.055085e+06 4.993325e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.993253e-01 -404 4.130475e+06 4.993180e-01 -405 4.168694e+06 4.993106e-01 -406 4.207266e+06 4.993030e-01 -407 4.246196e+06 4.992953e-01 -408 4.285485e+06 4.992875e-01 -409 4.325138e+06 4.992796e-01 -410 4.365158e+06 4.992715e-01 -411 4.405549e+06 4.992632e-01 -412 4.446313e+06 4.992548e-01 -413 4.487454e+06 4.992463e-01 -414 4.528976e+06 4.992377e-01 -415 4.570882e+06 4.992288e-01 -416 4.613176e+06 4.992199e-01 -417 4.655861e+06 4.992108e-01 -418 4.698941e+06 4.992015e-01 -419 4.742420e+06 4.991921e-01 -420 4.786301e+06 4.991825e-01 -421 4.830588e+06 4.991727e-01 -422 4.875285e+06 4.991628e-01 -423 4.920395e+06 4.991527e-01 -424 4.965923e+06 4.991425e-01 -425 5.011872e+06 4.991321e-01 -426 5.058247e+06 4.991215e-01 -427 5.105050e+06 4.991107e-01 -428 5.152286e+06 4.990997e-01 -429 5.199960e+06 4.990886e-01 -430 5.248075e+06 4.990773e-01 -431 5.296634e+06 4.990658e-01 -432 5.345644e+06 4.990541e-01 -433 5.395106e+06 4.990422e-01 -434 5.445027e+06 4.990301e-01 -435 5.495409e+06 4.990178e-01 -436 5.546257e+06 4.990053e-01 -437 5.597576e+06 4.989926e-01 -438 5.649370e+06 4.989797e-01 -439 5.701643e+06 4.989666e-01 -440 5.754399e+06 4.989533e-01 -441 5.807644e+06 4.989397e-01 -442 5.861382e+06 4.989259e-01 -443 5.915616e+06 4.989120e-01 -444 5.970353e+06 4.988977e-01 -445 6.025596e+06 4.988833e-01 -446 6.081350e+06 4.988686e-01 -447 6.137620e+06 4.988537e-01 -448 6.194411e+06 4.988386e-01 -449 6.251727e+06 4.988232e-01 -450 6.309573e+06 4.988075e-01 -451 6.367955e+06 4.987917e-01 -452 6.426877e+06 4.987755e-01 -453 6.486344e+06 4.987591e-01 -454 6.546362e+06 4.987425e-01 -455 6.606934e+06 4.987256e-01 -456 6.668068e+06 4.987084e-01 -457 6.729767e+06 4.986910e-01 -458 6.792036e+06 4.986733e-01 -459 6.854882e+06 4.986553e-01 -460 6.918310e+06 4.986370e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.986184e-01 -462 7.046931e+06 4.985996e-01 -463 7.112135e+06 4.985805e-01 -464 7.177943e+06 4.985611e-01 -465 7.244360e+06 4.985413e-01 -466 7.311391e+06 4.985213e-01 -467 7.379042e+06 4.985010e-01 -468 7.447320e+06 4.984804e-01 -469 7.516229e+06 4.984594e-01 -470 7.585776e+06 4.984382e-01 -471 7.655966e+06 4.984166e-01 -472 7.726806e+06 4.983947e-01 -473 7.798301e+06 4.983725e-01 -474 7.870458e+06 4.983500e-01 -475 7.943282e+06 4.983271e-01 -476 8.016781e+06 4.983039e-01 -477 8.090959e+06 4.982803e-01 -478 8.165824e+06 4.982564e-01 -479 8.241381e+06 4.982322e-01 -480 8.317638e+06 4.982075e-01 -481 8.394600e+06 4.981826e-01 -482 8.472274e+06 4.981573e-01 -483 8.550667e+06 4.981316e-01 -484 8.629785e+06 4.981055e-01 -485 8.709636e+06 4.980791e-01 -486 8.790225e+06 4.980523e-01 -487 8.871560e+06 4.980251e-01 -488 8.953648e+06 4.979976e-01 -489 9.036495e+06 4.979696e-01 -490 9.120108e+06 4.979413e-01 -491 9.204496e+06 4.979125e-01 -492 9.289664e+06 4.978834e-01 -493 9.375620e+06 4.978538e-01 -494 9.462372e+06 4.978239e-01 -495 9.549926e+06 4.977935e-01 -496 9.638290e+06 4.977628e-01 -497 9.727472e+06 4.977316e-01 -498 9.817479e+06 4.977000e-01 -499 9.908319e+06 4.976679e-01 -500 1.000000e+07 4.976354e-01 -501 1.009253e+07 4.976025e-01 -502 1.018591e+07 4.975692e-01 -503 1.028016e+07 4.975354e-01 -504 1.037528e+07 4.975012e-01 -505 1.047129e+07 4.974665e-01 -506 1.056818e+07 4.974313e-01 -507 1.066596e+07 4.973957e-01 -508 1.076465e+07 4.973596e-01 -509 1.086426e+07 4.973231e-01 -510 1.096478e+07 4.972861e-01 -511 1.106624e+07 4.972486e-01 -512 1.116863e+07 4.972107e-01 -513 1.127197e+07 4.971722e-01 -514 1.137627e+07 4.971333e-01 -515 1.148154e+07 4.970938e-01 -516 1.158777e+07 4.970539e-01 -517 1.169499e+07 4.970135e-01 -518 1.180321e+07 4.969726e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.969311e-01 -520 1.202264e+07 4.968892e-01 -521 1.213389e+07 4.968467e-01 -522 1.224616e+07 4.968037e-01 -523 1.235947e+07 4.967602e-01 -524 1.247384e+07 4.967162e-01 -525 1.258925e+07 4.966716e-01 -526 1.270574e+07 4.966265e-01 -527 1.282331e+07 4.965808e-01 -528 1.294196e+07 4.965346e-01 -529 1.306171e+07 4.964878e-01 -530 1.318257e+07 4.964405e-01 -531 1.330454e+07 4.963926e-01 -532 1.342765e+07 4.963442e-01 -533 1.355189e+07 4.962952e-01 -534 1.367729e+07 4.962456e-01 -535 1.380384e+07 4.961954e-01 -536 1.393157e+07 4.961447e-01 -537 1.406048e+07 4.960933e-01 -538 1.419058e+07 4.960414e-01 -539 1.432188e+07 4.959889e-01 -540 1.445440e+07 4.959357e-01 -541 1.458814e+07 4.958820e-01 -542 1.472313e+07 4.958276e-01 -543 1.485936e+07 4.957727e-01 -544 1.499685e+07 4.957171e-01 -545 1.513561e+07 4.956608e-01 -546 1.527566e+07 4.956040e-01 -547 1.541700e+07 4.955465e-01 -548 1.555966e+07 4.954883e-01 -549 1.570363e+07 4.954296e-01 -550 1.584893e+07 4.953701e-01 -551 1.599558e+07 4.953100e-01 -552 1.614359e+07 4.952492e-01 -553 1.629296e+07 4.951878e-01 -554 1.644372e+07 4.951257e-01 -555 1.659587e+07 4.950629e-01 -556 1.674943e+07 4.949994e-01 -557 1.690441e+07 4.949352e-01 -558 1.706082e+07 4.948703e-01 -559 1.721869e+07 4.948047e-01 -560 1.737801e+07 4.947384e-01 -561 1.753881e+07 4.946714e-01 -562 1.770109e+07 4.946036e-01 -563 1.786488e+07 4.945352e-01 -564 1.803018e+07 4.944659e-01 -565 1.819701e+07 4.943960e-01 -566 1.836538e+07 4.943252e-01 -567 1.853532e+07 4.942538e-01 -568 1.870682e+07 4.941815e-01 -569 1.887991e+07 4.941085e-01 -570 1.905461e+07 4.940347e-01 -571 1.923092e+07 4.939601e-01 -572 1.940886e+07 4.938847e-01 -573 1.958845e+07 4.938085e-01 -574 1.976970e+07 4.937315e-01 -575 1.995262e+07 4.936537e-01 -576 2.013724e+07 4.935751e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.934956e-01 -578 2.051162e+07 4.934153e-01 -579 2.070141e+07 4.933341e-01 -580 2.089296e+07 4.932521e-01 -581 2.108628e+07 4.931692e-01 -582 2.128139e+07 4.930855e-01 -583 2.147830e+07 4.930009e-01 -584 2.167704e+07 4.929153e-01 -585 2.187762e+07 4.928289e-01 -586 2.208005e+07 4.927416e-01 -587 2.228435e+07 4.926534e-01 -588 2.249055e+07 4.925642e-01 -589 2.269865e+07 4.924741e-01 -590 2.290868e+07 4.923831e-01 -591 2.312065e+07 4.922911e-01 -592 2.333458e+07 4.921982e-01 -593 2.355049e+07 4.921043e-01 -594 2.376840e+07 4.920094e-01 -595 2.398833e+07 4.919136e-01 -596 2.421029e+07 4.918167e-01 -597 2.443431e+07 4.917189e-01 -598 2.466039e+07 4.916201e-01 -599 2.488857e+07 4.915202e-01 -600 2.511886e+07 4.914193e-01 -601 2.535129e+07 4.913174e-01 -602 2.558586e+07 4.912145e-01 -603 2.582260e+07 4.911105e-01 -604 2.606154e+07 4.910055e-01 -605 2.630268e+07 4.908994e-01 -606 2.654606e+07 4.907922e-01 -607 2.679168e+07 4.906839e-01 -608 2.703958e+07 4.905746e-01 -609 2.728978e+07 4.904642e-01 -610 2.754229e+07 4.903527e-01 -611 2.779713e+07 4.902400e-01 -612 2.805434e+07 4.901263e-01 -613 2.831392e+07 4.900115e-01 -614 2.857591e+07 4.898955e-01 -615 2.884032e+07 4.897784e-01 -616 2.910717e+07 4.896602e-01 -617 2.937650e+07 4.895408e-01 -618 2.964831e+07 4.894203e-01 -619 2.992265e+07 4.892987e-01 -620 3.019952e+07 4.891759e-01 -621 3.047895e+07 4.890519e-01 -622 3.076097e+07 4.889268e-01 -623 3.104560e+07 4.888006e-01 -624 3.133286e+07 4.886732e-01 -625 3.162278e+07 4.885446e-01 -626 3.191538e+07 4.884149e-01 -627 3.221069e+07 4.882840e-01 -628 3.250873e+07 4.881520e-01 -629 3.280953e+07 4.880188e-01 -630 3.311311e+07 4.878845e-01 -631 3.341950e+07 4.877490e-01 -632 3.372873e+07 4.876124e-01 -633 3.404082e+07 4.874746e-01 -634 3.435579e+07 4.873357e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.871957e-01 -636 3.499452e+07 4.870545e-01 -637 3.531832e+07 4.869123e-01 -638 3.564511e+07 4.867689e-01 -639 3.597493e+07 4.866245e-01 -640 3.630781e+07 4.864790e-01 -641 3.664376e+07 4.863324e-01 -642 3.698282e+07 4.861847e-01 -643 3.732502e+07 4.860360e-01 -644 3.767038e+07 4.858863e-01 -645 3.801894e+07 4.857356e-01 -646 3.837072e+07 4.855839e-01 -647 3.872576e+07 4.854313e-01 -648 3.908409e+07 4.852777e-01 -649 3.944573e+07 4.851232e-01 -650 3.981072e+07 4.849678e-01 -651 4.017908e+07 4.848115e-01 -652 4.055085e+07 4.846544e-01 -653 4.092607e+07 4.844965e-01 -654 4.130475e+07 4.843378e-01 -655 4.168694e+07 4.841783e-01 -656 4.207266e+07 4.840182e-01 -657 4.246196e+07 4.838573e-01 -658 4.285485e+07 4.836959e-01 -659 4.325138e+07 4.835338e-01 -660 4.365158e+07 4.833712e-01 -661 4.405549e+07 4.832081e-01 -662 4.446313e+07 4.830446e-01 -663 4.487454e+07 4.828806e-01 -664 4.528976e+07 4.827163e-01 -665 4.570882e+07 4.825517e-01 -666 4.613176e+07 4.823868e-01 -667 4.655861e+07 4.822218e-01 -668 4.698941e+07 4.820566e-01 -669 4.742420e+07 4.818914e-01 -670 4.786301e+07 4.817261e-01 -671 4.830588e+07 4.815610e-01 -672 4.875285e+07 4.813960e-01 -673 4.920395e+07 4.812312e-01 -674 4.965923e+07 4.810667e-01 -675 5.011872e+07 4.809026e-01 -676 5.058247e+07 4.807389e-01 -677 5.105050e+07 4.805758e-01 -678 5.152286e+07 4.804133e-01 -679 5.199960e+07 4.802516e-01 -680 5.248075e+07 4.800906e-01 -681 5.296634e+07 4.799306e-01 -682 5.345644e+07 4.797716e-01 -683 5.395106e+07 4.796137e-01 -684 5.445027e+07 4.794571e-01 -685 5.495409e+07 4.793018e-01 -686 5.546257e+07 4.791479e-01 -687 5.597576e+07 4.789956e-01 -688 5.649370e+07 4.788450e-01 -689 5.701643e+07 4.786962e-01 -690 5.754399e+07 4.785493e-01 -691 5.807644e+07 4.784045e-01 -692 5.861382e+07 4.782619e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.781216e-01 -694 5.970353e+07 4.779838e-01 -695 6.025596e+07 4.778486e-01 -696 6.081350e+07 4.777161e-01 -697 6.137620e+07 4.775865e-01 -698 6.194411e+07 4.774600e-01 -699 6.251727e+07 4.773367e-01 -700 6.309573e+07 4.772168e-01 -701 6.367955e+07 4.771004e-01 -702 6.426877e+07 4.769876e-01 -703 6.486344e+07 4.768788e-01 -704 6.546362e+07 4.767739e-01 -705 6.606934e+07 4.766732e-01 -706 6.668068e+07 4.765769e-01 -707 6.729767e+07 4.764851e-01 -708 6.792036e+07 4.763980e-01 -709 6.854882e+07 4.763158e-01 -710 6.918310e+07 4.762386e-01 -711 6.982324e+07 4.761667e-01 -712 7.046931e+07 4.761003e-01 -713 7.112135e+07 4.760394e-01 -714 7.177943e+07 4.759844e-01 -715 7.244360e+07 4.759353e-01 -716 7.311391e+07 4.758924e-01 -717 7.379042e+07 4.758558e-01 -718 7.447320e+07 4.758258e-01 -719 7.516229e+07 4.758025e-01 -720 7.585776e+07 4.757861e-01 -721 7.655966e+07 4.757768e-01 -722 7.726806e+07 4.757748e-01 -723 7.798301e+07 4.757802e-01 -724 7.870458e+07 4.757932e-01 -725 7.943282e+07 4.758140e-01 -726 8.016781e+07 4.758427e-01 -727 8.090959e+07 4.758796e-01 -728 8.165824e+07 4.759248e-01 -729 8.241381e+07 4.759784e-01 -730 8.317638e+07 4.760406e-01 -731 8.394600e+07 4.761115e-01 -732 8.472274e+07 4.761912e-01 -733 8.550667e+07 4.762799e-01 -734 8.629785e+07 4.763777e-01 -735 8.709636e+07 4.764847e-01 -736 8.790225e+07 4.766010e-01 -737 8.871560e+07 4.767267e-01 -738 8.953648e+07 4.768618e-01 -739 9.036495e+07 4.770064e-01 -740 9.120108e+07 4.771605e-01 -741 9.204496e+07 4.773242e-01 -742 9.289664e+07 4.774974e-01 -743 9.375620e+07 4.776802e-01 -744 9.462372e+07 4.778726e-01 -745 9.549926e+07 4.780744e-01 -746 9.638290e+07 4.782856e-01 -747 9.727472e+07 4.785062e-01 -748 9.817479e+07 4.787359e-01 -749 9.908319e+07 4.789747e-01 -750 1.000000e+08 4.792224e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.794788e-01 -752 1.018591e+08 4.797436e-01 -753 1.028016e+08 4.800166e-01 -754 1.037528e+08 4.802975e-01 -755 1.047129e+08 4.805860e-01 -756 1.056818e+08 4.808817e-01 -757 1.066596e+08 4.811842e-01 -758 1.076465e+08 4.814931e-01 -759 1.086426e+08 4.818079e-01 -760 1.096478e+08 4.821281e-01 -761 1.106624e+08 4.824531e-01 -762 1.116863e+08 4.827824e-01 -763 1.127197e+08 4.831152e-01 -764 1.137627e+08 4.834510e-01 -765 1.148154e+08 4.837889e-01 -766 1.158777e+08 4.841282e-01 -767 1.169499e+08 4.844681e-01 -768 1.180321e+08 4.848078e-01 -769 1.191242e+08 4.851462e-01 -770 1.202264e+08 4.854824e-01 -771 1.213389e+08 4.858155e-01 -772 1.224616e+08 4.861444e-01 -773 1.235947e+08 4.864680e-01 -774 1.247384e+08 4.867852e-01 -775 1.258925e+08 4.870947e-01 -776 1.270574e+08 4.873955e-01 -777 1.282331e+08 4.876863e-01 -778 1.294196e+08 4.879657e-01 -779 1.306171e+08 4.882326e-01 -780 1.318257e+08 4.884856e-01 -781 1.330454e+08 4.887234e-01 -782 1.342765e+08 4.889446e-01 -783 1.355189e+08 4.891479e-01 -784 1.367729e+08 4.893320e-01 -785 1.380384e+08 4.894955e-01 -786 1.393157e+08 4.896371e-01 -787 1.406048e+08 4.897555e-01 -788 1.419058e+08 4.898494e-01 -789 1.432188e+08 4.899177e-01 -790 1.445440e+08 4.899591e-01 -791 1.458814e+08 4.899725e-01 -792 1.472313e+08 4.899569e-01 -793 1.485936e+08 4.899113e-01 -794 1.499685e+08 4.898349e-01 -795 1.513561e+08 4.897268e-01 -796 1.527566e+08 4.895864e-01 -797 1.541700e+08 4.894132e-01 -798 1.555966e+08 4.892067e-01 -799 1.570363e+08 4.889667e-01 -800 1.584893e+08 4.886929e-01 -801 1.599558e+08 4.883856e-01 -802 1.614359e+08 4.880448e-01 -803 1.629296e+08 4.876710e-01 -804 1.644372e+08 4.872646e-01 -805 1.659587e+08 4.868264e-01 -806 1.674943e+08 4.863574e-01 -807 1.690441e+08 4.858586e-01 -808 1.706082e+08 4.853314e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.847773e-01 -810 1.737801e+08 4.841979e-01 -811 1.753881e+08 4.835952e-01 -812 1.770109e+08 4.829713e-01 -813 1.786488e+08 4.823284e-01 -814 1.803018e+08 4.816690e-01 -815 1.819701e+08 4.809957e-01 -816 1.836538e+08 4.803112e-01 -817 1.853532e+08 4.796186e-01 -818 1.870682e+08 4.789210e-01 -819 1.887991e+08 4.782214e-01 -820 1.905461e+08 4.775233e-01 -821 1.923092e+08 4.768301e-01 -822 1.940886e+08 4.761453e-01 -823 1.958845e+08 4.754725e-01 -824 1.976970e+08 4.748153e-01 -825 1.995262e+08 4.741773e-01 -826 2.013724e+08 4.735623e-01 -827 2.032357e+08 4.729739e-01 -828 2.051162e+08 4.724157e-01 -829 2.070141e+08 4.718913e-01 -830 2.089296e+08 4.714042e-01 -831 2.108628e+08 4.709578e-01 -832 2.128139e+08 4.705553e-01 -833 2.147830e+08 4.701999e-01 -834 2.167704e+08 4.698944e-01 -835 2.187762e+08 4.696417e-01 -836 2.208005e+08 4.694441e-01 -837 2.228435e+08 4.693039e-01 -838 2.249055e+08 4.692230e-01 -839 2.269865e+08 4.692030e-01 -840 2.290868e+08 4.692451e-01 -841 2.312065e+08 4.693501e-01 -842 2.333458e+08 4.695183e-01 -843 2.355049e+08 4.697498e-01 -844 2.376840e+08 4.700438e-01 -845 2.398833e+08 4.703993e-01 -846 2.421029e+08 4.708144e-01 -847 2.443431e+08 4.712870e-01 -848 2.466039e+08 4.718139e-01 -849 2.488857e+08 4.723917e-01 -850 2.511886e+08 4.730158e-01 -851 2.535129e+08 4.736813e-01 -852 2.558586e+08 4.743825e-01 -853 2.582260e+08 4.751127e-01 -854 2.606154e+08 4.758649e-01 -855 2.630268e+08 4.766311e-01 -856 2.654606e+08 4.774028e-01 -857 2.679168e+08 4.781709e-01 -858 2.703958e+08 4.789257e-01 -859 2.728978e+08 4.796571e-01 -860 2.754229e+08 4.803547e-01 -861 2.779713e+08 4.810080e-01 -862 2.805434e+08 4.816063e-01 -863 2.831392e+08 4.821392e-01 -864 2.857591e+08 4.825965e-01 -865 2.884032e+08 4.829687e-01 -866 2.910717e+08 4.832469e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.834234e-01 -868 2.964831e+08 4.834914e-01 -869 2.992265e+08 4.834457e-01 -870 3.019952e+08 4.832828e-01 -871 3.047895e+08 4.830006e-01 -872 3.076097e+08 4.825994e-01 -873 3.104560e+08 4.820811e-01 -874 3.133286e+08 4.814498e-01 -875 3.162278e+08 4.807118e-01 -876 3.191538e+08 4.798753e-01 -877 3.221069e+08 4.789504e-01 -878 3.250873e+08 4.779494e-01 -879 3.280953e+08 4.768858e-01 -880 3.311311e+08 4.757749e-01 -881 3.341950e+08 4.746331e-01 -882 3.372873e+08 4.734778e-01 -883 3.404082e+08 4.723269e-01 -884 3.435579e+08 4.711989e-01 -885 3.467369e+08 4.701122e-01 -886 3.499452e+08 4.690853e-01 -887 3.531832e+08 4.681357e-01 -888 3.564511e+08 4.672804e-01 -889 3.597493e+08 4.665352e-01 -890 3.630781e+08 4.659144e-01 -891 3.664376e+08 4.654309e-01 -892 3.698282e+08 4.650954e-01 -893 3.732502e+08 4.649164e-01 -894 3.767038e+08 4.649001e-01 -895 3.801894e+08 4.650497e-01 -896 3.837072e+08 4.653657e-01 -897 3.872576e+08 4.658451e-01 -898 3.908409e+08 4.664816e-01 -899 3.944573e+08 4.672652e-01 -900 3.981072e+08 4.681820e-01 -901 4.017908e+08 4.692145e-01 -902 4.055085e+08 4.703408e-01 -903 4.092607e+08 4.715356e-01 -904 4.130475e+08 4.727700e-01 -905 4.168694e+08 4.740119e-01 -906 4.207266e+08 4.752267e-01 -907 4.246196e+08 4.763782e-01 -908 4.285485e+08 4.774295e-01 -909 4.325138e+08 4.783445e-01 -910 4.365158e+08 4.790888e-01 -911 4.405549e+08 4.796318e-01 -912 4.446313e+08 4.799478e-01 -913 4.487454e+08 4.800179e-01 -914 4.528976e+08 4.798306e-01 -915 4.570882e+08 4.793835e-01 -916 4.613176e+08 4.786834e-01 -917 4.655861e+08 4.777468e-01 -918 4.698941e+08 4.765992e-01 -919 4.742420e+08 4.752747e-01 -920 4.786301e+08 4.738148e-01 -921 4.830588e+08 4.722666e-01 -922 4.875285e+08 4.706813e-01 -923 4.920395e+08 4.691123e-01 -924 4.965923e+08 4.676134e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.662369e-01 -926 5.058247e+08 4.650318e-01 -927 5.105050e+08 4.640422e-01 -928 5.152286e+08 4.633062e-01 -929 5.199960e+08 4.628540e-01 -930 5.248075e+08 4.627073e-01 -931 5.296634e+08 4.628775e-01 -932 5.345644e+08 4.633653e-01 -933 5.395106e+08 4.641597e-01 -934 5.445027e+08 4.652367e-01 -935 5.495409e+08 4.665597e-01 -936 5.546257e+08 4.680788e-01 -937 5.597576e+08 4.697317e-01 -938 5.649370e+08 4.714447e-01 -939 5.701643e+08 4.731355e-01 -940 5.754399e+08 4.747161e-01 -941 5.807644e+08 4.760976e-01 -942 5.861382e+08 4.771958e-01 -943 5.915616e+08 4.779372e-01 -944 5.970353e+08 4.782652e-01 -945 6.025596e+08 4.781458e-01 -946 6.081350e+08 4.775714e-01 -947 6.137620e+08 4.765635e-01 -948 6.194411e+08 4.751717e-01 -949 6.251727e+08 4.734716e-01 -950 6.309573e+08 4.715592e-01 -951 6.367955e+08 4.695453e-01 -952 6.426877e+08 4.675477e-01 -953 6.486344e+08 4.656845e-01 -954 6.546362e+08 4.640667e-01 -955 6.606934e+08 4.627929e-01 -956 6.668068e+08 4.619433e-01 -957 6.729767e+08 4.615763e-01 -958 6.792036e+08 4.617240e-01 -959 6.854882e+08 4.623896e-01 -960 6.918310e+08 4.635448e-01 -961 6.982324e+08 4.651284e-01 -962 7.046931e+08 4.670456e-01 -963 7.112135e+08 4.691702e-01 -964 7.177943e+08 4.713495e-01 -965 7.244360e+08 4.734126e-01 -966 7.311391e+08 4.751833e-01 -967 7.379042e+08 4.764968e-01 -968 7.447320e+08 4.772181e-01 -969 7.516229e+08 4.772598e-01 -970 7.585776e+08 4.765965e-01 -971 7.655966e+08 4.752711e-01 -972 7.726806e+08 4.733929e-01 -973 7.798301e+08 4.711269e-01 -974 7.870458e+08 4.686766e-01 -975 7.943282e+08 4.662629e-01 -976 8.016781e+08 4.641036e-01 -977 8.090959e+08 4.623948e-01 -978 8.165824e+08 4.612950e-01 -979 8.241381e+08 4.609132e-01 -980 8.317638e+08 4.612997e-01 -981 8.394600e+08 4.624391e-01 -982 8.472274e+08 4.642454e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.665613e-01 -984 8.629785e+08 4.691626e-01 -985 8.709636e+08 4.717720e-01 -986 8.790225e+08 4.740845e-01 -987 8.871560e+08 4.758032e-01 -988 8.953648e+08 4.766851e-01 -989 9.036495e+08 4.765846e-01 -990 9.120108e+08 4.754859e-01 -991 9.204496e+08 4.735128e-01 -992 9.289664e+08 4.709135e-01 -993 9.375620e+08 4.680219e-01 -994 9.462372e+08 4.652095e-01 -995 9.549926e+08 4.628348e-01 -996 9.638290e+08 4.612011e-01 -997 9.727472e+08 4.605244e-01 -998 9.817479e+08 4.609100e-01 -999 9.908319e+08 4.623370e-01 -1000 1.000000e+09 4.646494e-01 - -CPU time since last call: 0.039 seconds. - -Total CPU time: 0.039 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4826.089844 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 770.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec deleted file mode 100644 index 41464ba..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901019_V13 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec deleted file mode 100644 index 8b85332..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/TP_AWG_22_ESCC_3901019_V13_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901019_V13_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/analytic_solution.dat_reference deleted file mode 100644 index 75d6323..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49949085040192898 -2.6628700488113850E-003 - 100926.21909870484 0.49949020464582283 -2.6872139543588480E-003 - 101861.01701559752 0.49948954836704462 -2.7117751826611527E-003 - 102804.47320933097 0.49948888141993447 -2.7365555533333990E-003 - 103756.66787451849 0.49948820365769930 -2.7615568988913386E-003 - 104717.68194855202 0.49948751493243465 -2.7867810648178051E-003 - 105687.59711848051 0.49948681509514997 -2.8122299096287511E-003 - 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456730127.01687467 0.48232961048081846 2.9524317754588325 - 460960448.68284386 0.48122140528363500 2.8595085919551382 - 465229952.39601988 0.47976639847750402 2.7661987378362523 - 469539001.06800532 0.47800873487090728 2.6726288909125659 - 473887960.97176510 0.47600485047230146 2.5789082269715737 - 478277201.77274853 0.47382108783940635 2.4851233972415847 - 482707096.56031883 0.47153090929549879 2.3913345279543101 - 487178021.87946409 0.46921193197930633 2.2975723826067642 - 491690357.76280212 0.46694298909501497 2.2038367212188894 - 496244487.76289135 0.46480137716421244 2.1100958013242730 - 500840798.98482126 0.46286039058781092 2.0162869035916451 - 505479682.11912459 0.46118718377642492 1.9223177355022545 - 510161531.47498441 0.45984094692682759 1.8280685683326743 - 514886745.01374871 0.45887134059135359 1.7333949906055801 - 519655724.38276571 0.45831710990080682 1.6381312076631176 - 524468874.94951189 0.45820479289121441 1.5420938736939949 - 529326605.83605665 0.45854744901854916 1.4450865008250202 - 534229329.95383632 0.45934336365275630 1.3469045409513243 - 539177464.03874946 0.46057473241843722 1.2473412701218247 - 544171428.68658876 0.46220639587969381 1.1461946111337398 - 549211648.38877892 0.46418477897579996 1.0432749940316237 - 554298551.56846750 0.46643728566904352 0.93841426161346597 - 559432570.61693895 0.46887249526732938 0.83147546453602295 - 564614141.93036616 0.47138158044480621 0.72236315232601922 - 569843705.94691360 0.47384138440795837 0.61103346316783824 - 575121707.18416142 0.47611951478846820 0.49750298437797164 - 580448594.27689838 0.47808159796445515 0.38185506910206113 - 585824820.01525474 0.47960047793773264 0.26424215647284627 - 591250841.38318694 0.48056667610139658 0.14488276541006917 - 596727119.59733105 0.48089895329923216 2.4052296710784498E-002 - 602254120.14619279 0.48055348563431660 -9.7932421193829250E-002 - 607832312.82972360 0.47953013446881115 -0.22073389784481845 - 613462171.79925191 0.47787464129138163 -0.34401813310934620 - 619144175.59778345 0.47567626038046656 -0.46747956048217892 - 624878807.20068884 0.47306117241635071 -0.59086403120528430 - 630666554.05674052 0.47018274973889601 -0.71398749723242083 - 636507908.12955773 0.46721015870147597 -0.83674888269785586 - 642403365.93942034 0.46431680204760928 -0.95913662716182035 - 648353428.60547137 0.46166978314555307 -1.0812292645864667 - 654358601.88832295 0.45942106707521563 -1.2031909776357192 - 660419396.23303056 0.45770049140574054 -1.3252632702451161 - 666536326.81249201 0.45661037035112195 -1.4477537751058194 - 672709913.57123506 0.45622120456276255 -1.5710228633946255 - 678940681.26960981 0.45656796778772579 -1.6954682771897145 - 685229159.52840579 0.45764657736295239 -1.8215075792698951 - 691575882.87385249 0.45941044964418970 -1.9495579195845021 - 697981390.78306675 0.46176747667469459 -2.0800125628916395 - 704446227.72990513 0.46457830565667035 -2.2132139277198823 - 710970943.23124242 0.46765737892953424 -2.3494236689782242 - 717556091.89369214 0.47077862889565353 -2.4887916524928015 - 724202233.46073151 0.47368773700622518 -2.6313274126630817 - 730909932.86029184 0.47612211719180109 -2.7768794556817094 - 737679760.25277460 0.47783805221542131 -2.9251288224998282 - 744512291.07951283 0.47864188339367886 -3.0756027202203575 - 751408106.11169624 0.47841963739940702 3.0554741980933917 - 758367791.49971902 0.47715824143007773 2.9023811625592884 - 765391938.82301557 0.47495259680056678 2.7489425036114072 - 772481145.14034164 0.47199625822684743 2.5957141963795345 - 779636013.04052210 0.46855795147131174 2.4431073874840736 - 786857150.69368434 0.46494965264024601 2.2913459369749969 - 794145171.90293396 0.46149303979075684 2.1404468936671059 - 801500696.15654135 0.45848977259565821 1.9902224432879294 - 808924348.68059552 0.45619835014843241 1.8402987304159715 - 816416760.49214554 0.45481760275848376 1.6901462738996134 - 823978568.45285118 0.45447510985748768 1.5391179484763307 - 831610415.32309616 0.45521830130598268 1.3864927026151141 - 839312949.81663728 0.45700659251033932 1.2315253405327262 - 847086826.65574193 0.45970440722797890 1.0735039922464578 - 854932706.62683666 0.46307712507459614 0.91181659989580865 - 862851256.63668871 0.46679446131423774 0.74602518445429522 - 870843149.76907241 0.47044766831117230 0.57594146281173497 - 878909065.34199631 0.47358666950186634 0.40169024186795199 - 887049688.96544206 0.47577897529863322 0.22374057808399789 - 895265712.59963822 0.47668348095294616 4.2883686729124980E-002 - 903557834.61389208 0.47612189571977453 -0.13985436273328933 - 911926759.84592986 0.47412503218577184 -0.32335794319828437 - 920373199.66182303 0.47093640810072107 -0.50659623194297698 - 928897872.01645172 0.46697088008580234 -0.68878562911626517 - 937501501.51452708 0.46274269745672192 -0.86950436200574110 - 946184819.47219920 0.45878548251896706 -1.0487422090316887 - 954948563.97919667 0.45558307624864297 -1.2268891233537782 - 963793479.96157956 0.45351976266461480 -1.4046790655017118 - 972720319.24505568 0.45284836094357489 -1.5831066188904059 - 981729840.61888206 0.45366948811968583 -1.7633274599427313 - 990822809.90037870 0.45591565074835522 -1.9465451296075218 - 1000000000.0000000 0.45933856196405848 -2.1338806953173868 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/result_comparison.dat_reference deleted file mode 100644 index 8506d49..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00213906 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/spice_solution.dat_reference deleted file mode 100644 index afa49a0..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:52:34 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.996844e-01 -1 1.009253e+05 4.996844e-01 -2 1.018591e+05 4.996844e-01 -3 1.028016e+05 4.996844e-01 -4 1.037528e+05 4.996844e-01 -5 1.047129e+05 4.996844e-01 -6 1.056818e+05 4.996844e-01 -7 1.066596e+05 4.996844e-01 -8 1.076465e+05 4.996844e-01 -9 1.086426e+05 4.996844e-01 -10 1.096478e+05 4.996844e-01 -11 1.106624e+05 4.996844e-01 -12 1.116863e+05 4.996844e-01 -13 1.127197e+05 4.996844e-01 -14 1.137627e+05 4.996844e-01 -15 1.148154e+05 4.996843e-01 -16 1.158777e+05 4.996843e-01 -17 1.169499e+05 4.996843e-01 -18 1.180321e+05 4.996843e-01 -19 1.191242e+05 4.996843e-01 -20 1.202264e+05 4.996843e-01 -21 1.213389e+05 4.996843e-01 -22 1.224616e+05 4.996843e-01 -23 1.235947e+05 4.996843e-01 -24 1.247384e+05 4.996843e-01 -25 1.258925e+05 4.996843e-01 -26 1.270574e+05 4.996843e-01 -27 1.282331e+05 4.996843e-01 -28 1.294196e+05 4.996842e-01 -29 1.306171e+05 4.996842e-01 -30 1.318257e+05 4.996842e-01 -31 1.330454e+05 4.996842e-01 -32 1.342765e+05 4.996842e-01 -33 1.355189e+05 4.996842e-01 -34 1.367729e+05 4.996842e-01 -35 1.380384e+05 4.996842e-01 -36 1.393157e+05 4.996842e-01 -37 1.406048e+05 4.996842e-01 -38 1.419058e+05 4.996841e-01 -39 1.432188e+05 4.996841e-01 -40 1.445440e+05 4.996841e-01 -41 1.458814e+05 4.996841e-01 -42 1.472313e+05 4.996841e-01 -43 1.485936e+05 4.996841e-01 -44 1.499685e+05 4.996841e-01 -45 1.513561e+05 4.996841e-01 -46 1.527566e+05 4.996840e-01 -47 1.541700e+05 4.996840e-01 -48 1.555966e+05 4.996840e-01 -49 1.570363e+05 4.996840e-01 -50 1.584893e+05 4.996840e-01 -51 1.599558e+05 4.996840e-01 -52 1.614359e+05 4.996840e-01 -53 1.629296e+05 4.996840e-01 -54 1.644372e+05 4.996839e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.996839e-01 -56 1.674943e+05 4.996839e-01 -57 1.690441e+05 4.996839e-01 -58 1.706082e+05 4.996839e-01 -59 1.721869e+05 4.996839e-01 -60 1.737801e+05 4.996838e-01 -61 1.753881e+05 4.996838e-01 -62 1.770109e+05 4.996838e-01 -63 1.786488e+05 4.996838e-01 -64 1.803018e+05 4.996838e-01 -65 1.819701e+05 4.996838e-01 -66 1.836538e+05 4.996837e-01 -67 1.853532e+05 4.996837e-01 -68 1.870682e+05 4.996837e-01 -69 1.887991e+05 4.996837e-01 -70 1.905461e+05 4.996837e-01 -71 1.923092e+05 4.996836e-01 -72 1.940886e+05 4.996836e-01 -73 1.958845e+05 4.996836e-01 -74 1.976970e+05 4.996836e-01 -75 1.995262e+05 4.996836e-01 -76 2.013724e+05 4.996835e-01 -77 2.032357e+05 4.996835e-01 -78 2.051162e+05 4.996835e-01 -79 2.070141e+05 4.996835e-01 -80 2.089296e+05 4.996834e-01 -81 2.108628e+05 4.996834e-01 -82 2.128139e+05 4.996834e-01 -83 2.147830e+05 4.996834e-01 -84 2.167704e+05 4.996833e-01 -85 2.187762e+05 4.996833e-01 -86 2.208005e+05 4.996833e-01 -87 2.228435e+05 4.996833e-01 -88 2.249055e+05 4.996832e-01 -89 2.269865e+05 4.996832e-01 -90 2.290868e+05 4.996832e-01 -91 2.312065e+05 4.996832e-01 -92 2.333458e+05 4.996831e-01 -93 2.355049e+05 4.996831e-01 -94 2.376840e+05 4.996831e-01 -95 2.398833e+05 4.996830e-01 -96 2.421029e+05 4.996830e-01 -97 2.443431e+05 4.996830e-01 -98 2.466039e+05 4.996829e-01 -99 2.488857e+05 4.996829e-01 -100 2.511886e+05 4.996829e-01 -101 2.535129e+05 4.996828e-01 -102 2.558586e+05 4.996828e-01 -103 2.582260e+05 4.996828e-01 -104 2.606154e+05 4.996827e-01 -105 2.630268e+05 4.996827e-01 -106 2.654606e+05 4.996826e-01 -107 2.679168e+05 4.996826e-01 -108 2.703958e+05 4.996826e-01 -109 2.728978e+05 4.996825e-01 -110 2.754229e+05 4.996825e-01 -111 2.779713e+05 4.996824e-01 -112 2.805434e+05 4.996824e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.996824e-01 -114 2.857591e+05 4.996823e-01 -115 2.884032e+05 4.996823e-01 -116 2.910717e+05 4.996822e-01 -117 2.937650e+05 4.996822e-01 -118 2.964831e+05 4.996821e-01 -119 2.992265e+05 4.996821e-01 -120 3.019952e+05 4.996820e-01 -121 3.047895e+05 4.996820e-01 -122 3.076097e+05 4.996819e-01 -123 3.104560e+05 4.996819e-01 -124 3.133286e+05 4.996818e-01 -125 3.162278e+05 4.996818e-01 -126 3.191538e+05 4.996817e-01 -127 3.221069e+05 4.996817e-01 -128 3.250873e+05 4.996816e-01 -129 3.280953e+05 4.996815e-01 -130 3.311311e+05 4.996815e-01 -131 3.341950e+05 4.996814e-01 -132 3.372873e+05 4.996814e-01 -133 3.404082e+05 4.996813e-01 -134 3.435579e+05 4.996812e-01 -135 3.467369e+05 4.996812e-01 -136 3.499452e+05 4.996811e-01 -137 3.531832e+05 4.996810e-01 -138 3.564511e+05 4.996810e-01 -139 3.597493e+05 4.996809e-01 -140 3.630781e+05 4.996808e-01 -141 3.664376e+05 4.996808e-01 -142 3.698282e+05 4.996807e-01 -143 3.732502e+05 4.996806e-01 -144 3.767038e+05 4.996805e-01 -145 3.801894e+05 4.996805e-01 -146 3.837072e+05 4.996804e-01 -147 3.872576e+05 4.996803e-01 -148 3.908409e+05 4.996802e-01 -149 3.944573e+05 4.996801e-01 -150 3.981072e+05 4.996800e-01 -151 4.017908e+05 4.996800e-01 -152 4.055085e+05 4.996799e-01 -153 4.092607e+05 4.996798e-01 -154 4.130475e+05 4.996797e-01 -155 4.168694e+05 4.996796e-01 -156 4.207266e+05 4.996795e-01 -157 4.246196e+05 4.996794e-01 -158 4.285485e+05 4.996793e-01 -159 4.325138e+05 4.996792e-01 -160 4.365158e+05 4.996791e-01 -161 4.405549e+05 4.996790e-01 -162 4.446313e+05 4.996789e-01 -163 4.487454e+05 4.996788e-01 -164 4.528976e+05 4.996787e-01 -165 4.570882e+05 4.996785e-01 -166 4.613176e+05 4.996784e-01 -167 4.655861e+05 4.996783e-01 -168 4.698941e+05 4.996782e-01 -169 4.742420e+05 4.996781e-01 -170 4.786301e+05 4.996779e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.996778e-01 -172 4.875285e+05 4.996777e-01 -173 4.920395e+05 4.996776e-01 -174 4.965923e+05 4.996774e-01 -175 5.011872e+05 4.996773e-01 -176 5.058247e+05 4.996772e-01 -177 5.105050e+05 4.996770e-01 -178 5.152286e+05 4.996769e-01 -179 5.199960e+05 4.996767e-01 -180 5.248075e+05 4.996766e-01 -181 5.296634e+05 4.996764e-01 -182 5.345644e+05 4.996763e-01 -183 5.395106e+05 4.996761e-01 -184 5.445027e+05 4.996760e-01 -185 5.495409e+05 4.996758e-01 -186 5.546257e+05 4.996756e-01 -187 5.597576e+05 4.996755e-01 -188 5.649370e+05 4.996753e-01 -189 5.701643e+05 4.996751e-01 -190 5.754399e+05 4.996749e-01 -191 5.807644e+05 4.996747e-01 -192 5.861382e+05 4.996746e-01 -193 5.915616e+05 4.996744e-01 -194 5.970353e+05 4.996742e-01 -195 6.025596e+05 4.996740e-01 -196 6.081350e+05 4.996738e-01 -197 6.137620e+05 4.996736e-01 -198 6.194411e+05 4.996734e-01 -199 6.251727e+05 4.996732e-01 -200 6.309573e+05 4.996729e-01 -201 6.367955e+05 4.996727e-01 -202 6.426877e+05 4.996725e-01 -203 6.486344e+05 4.996723e-01 -204 6.546362e+05 4.996720e-01 -205 6.606934e+05 4.996718e-01 -206 6.668068e+05 4.996716e-01 -207 6.729767e+05 4.996713e-01 -208 6.792036e+05 4.996711e-01 -209 6.854882e+05 4.996708e-01 -210 6.918310e+05 4.996706e-01 -211 6.982324e+05 4.996703e-01 -212 7.046931e+05 4.996700e-01 -213 7.112135e+05 4.996698e-01 -214 7.177943e+05 4.996695e-01 -215 7.244360e+05 4.996692e-01 -216 7.311391e+05 4.996689e-01 -217 7.379042e+05 4.996686e-01 -218 7.447320e+05 4.996683e-01 -219 7.516229e+05 4.996680e-01 -220 7.585776e+05 4.996677e-01 -221 7.655966e+05 4.996674e-01 -222 7.726806e+05 4.996671e-01 -223 7.798301e+05 4.996667e-01 -224 7.870458e+05 4.996664e-01 -225 7.943282e+05 4.996660e-01 -226 8.016781e+05 4.996657e-01 -227 8.090959e+05 4.996653e-01 -228 8.165824e+05 4.996650e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.996646e-01 -230 8.317638e+05 4.996642e-01 -231 8.394600e+05 4.996639e-01 -232 8.472274e+05 4.996635e-01 -233 8.550667e+05 4.996631e-01 -234 8.629785e+05 4.996627e-01 -235 8.709636e+05 4.996623e-01 -236 8.790225e+05 4.996619e-01 -237 8.871560e+05 4.996614e-01 -238 8.953648e+05 4.996610e-01 -239 9.036495e+05 4.996606e-01 -240 9.120108e+05 4.996601e-01 -241 9.204496e+05 4.996597e-01 -242 9.289664e+05 4.996592e-01 -243 9.375620e+05 4.996587e-01 -244 9.462372e+05 4.996582e-01 -245 9.549926e+05 4.996577e-01 -246 9.638290e+05 4.996572e-01 -247 9.727472e+05 4.996567e-01 -248 9.817479e+05 4.996562e-01 -249 9.908319e+05 4.996557e-01 -250 1.000000e+06 4.996551e-01 -251 1.009253e+06 4.996546e-01 -252 1.018591e+06 4.996540e-01 -253 1.028016e+06 4.996535e-01 -254 1.037528e+06 4.996529e-01 -255 1.047129e+06 4.996523e-01 -256 1.056818e+06 4.996517e-01 -257 1.066596e+06 4.996511e-01 -258 1.076465e+06 4.996504e-01 -259 1.086426e+06 4.996498e-01 -260 1.096478e+06 4.996492e-01 -261 1.106624e+06 4.996485e-01 -262 1.116863e+06 4.996478e-01 -263 1.127197e+06 4.996471e-01 -264 1.137627e+06 4.996464e-01 -265 1.148154e+06 4.996457e-01 -266 1.158777e+06 4.996450e-01 -267 1.169499e+06 4.996443e-01 -268 1.180321e+06 4.996435e-01 -269 1.191242e+06 4.996428e-01 -270 1.202264e+06 4.996420e-01 -271 1.213389e+06 4.996412e-01 -272 1.224616e+06 4.996404e-01 -273 1.235947e+06 4.996396e-01 -274 1.247384e+06 4.996387e-01 -275 1.258925e+06 4.996379e-01 -276 1.270574e+06 4.996370e-01 -277 1.282331e+06 4.996361e-01 -278 1.294196e+06 4.996352e-01 -279 1.306171e+06 4.996343e-01 -280 1.318257e+06 4.996334e-01 -281 1.330454e+06 4.996324e-01 -282 1.342765e+06 4.996314e-01 -283 1.355189e+06 4.996305e-01 -284 1.367729e+06 4.996295e-01 -285 1.380384e+06 4.996284e-01 -286 1.393157e+06 4.996274e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.996263e-01 -288 1.419058e+06 4.996252e-01 -289 1.432188e+06 4.996241e-01 -290 1.445440e+06 4.996230e-01 -291 1.458814e+06 4.996219e-01 -292 1.472313e+06 4.996207e-01 -293 1.485936e+06 4.996195e-01 -294 1.499685e+06 4.996183e-01 -295 1.513561e+06 4.996171e-01 -296 1.527566e+06 4.996158e-01 -297 1.541700e+06 4.996146e-01 -298 1.555966e+06 4.996133e-01 -299 1.570363e+06 4.996119e-01 -300 1.584893e+06 4.996106e-01 -301 1.599558e+06 4.996092e-01 -302 1.614359e+06 4.996078e-01 -303 1.629296e+06 4.996064e-01 -304 1.644372e+06 4.996050e-01 -305 1.659587e+06 4.996035e-01 -306 1.674943e+06 4.996020e-01 -307 1.690441e+06 4.996005e-01 -308 1.706082e+06 4.995989e-01 -309 1.721869e+06 4.995973e-01 -310 1.737801e+06 4.995957e-01 -311 1.753881e+06 4.995940e-01 -312 1.770109e+06 4.995924e-01 -313 1.786488e+06 4.995907e-01 -314 1.803018e+06 4.995889e-01 -315 1.819701e+06 4.995872e-01 -316 1.836538e+06 4.995854e-01 -317 1.853532e+06 4.995835e-01 -318 1.870682e+06 4.995816e-01 -319 1.887991e+06 4.995797e-01 -320 1.905461e+06 4.995778e-01 -321 1.923092e+06 4.995758e-01 -322 1.940886e+06 4.995738e-01 -323 1.958845e+06 4.995718e-01 -324 1.976970e+06 4.995697e-01 -325 1.995262e+06 4.995676e-01 -326 2.013724e+06 4.995654e-01 -327 2.032357e+06 4.995632e-01 -328 2.051162e+06 4.995610e-01 -329 2.070141e+06 4.995587e-01 -330 2.089296e+06 4.995564e-01 -331 2.108628e+06 4.995540e-01 -332 2.128139e+06 4.995516e-01 -333 2.147830e+06 4.995491e-01 -334 2.167704e+06 4.995466e-01 -335 2.187762e+06 4.995441e-01 -336 2.208005e+06 4.995415e-01 -337 2.228435e+06 4.995389e-01 -338 2.249055e+06 4.995362e-01 -339 2.269865e+06 4.995334e-01 -340 2.290868e+06 4.995307e-01 -341 2.312065e+06 4.995278e-01 -342 2.333458e+06 4.995249e-01 -343 2.355049e+06 4.995220e-01 -344 2.376840e+06 4.995190e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.995160e-01 -346 2.421029e+06 4.995129e-01 -347 2.443431e+06 4.995097e-01 -348 2.466039e+06 4.995065e-01 -349 2.488857e+06 4.995032e-01 -350 2.511886e+06 4.994999e-01 -351 2.535129e+06 4.994965e-01 -352 2.558586e+06 4.994930e-01 -353 2.582260e+06 4.994895e-01 -354 2.606154e+06 4.994859e-01 -355 2.630268e+06 4.994823e-01 -356 2.654606e+06 4.994786e-01 -357 2.679168e+06 4.994748e-01 -358 2.703958e+06 4.994709e-01 -359 2.728978e+06 4.994670e-01 -360 2.754229e+06 4.994630e-01 -361 2.779713e+06 4.994590e-01 -362 2.805434e+06 4.994548e-01 -363 2.831392e+06 4.994506e-01 -364 2.857591e+06 4.994463e-01 -365 2.884032e+06 4.994420e-01 -366 2.910717e+06 4.994375e-01 -367 2.937650e+06 4.994330e-01 -368 2.964831e+06 4.994284e-01 -369 2.992265e+06 4.994237e-01 -370 3.019952e+06 4.994190e-01 -371 3.047895e+06 4.994141e-01 -372 3.076097e+06 4.994092e-01 -373 3.104560e+06 4.994041e-01 -374 3.133286e+06 4.993990e-01 -375 3.162278e+06 4.993938e-01 -376 3.191538e+06 4.993885e-01 -377 3.221069e+06 4.993831e-01 -378 3.250873e+06 4.993776e-01 -379 3.280953e+06 4.993720e-01 -380 3.311311e+06 4.993663e-01 -381 3.341950e+06 4.993605e-01 -382 3.372873e+06 4.993546e-01 -383 3.404082e+06 4.993486e-01 -384 3.435579e+06 4.993425e-01 -385 3.467369e+06 4.993363e-01 -386 3.499452e+06 4.993299e-01 -387 3.531832e+06 4.993235e-01 -388 3.564511e+06 4.993169e-01 -389 3.597493e+06 4.993103e-01 -390 3.630781e+06 4.993035e-01 -391 3.664376e+06 4.992966e-01 -392 3.698282e+06 4.992895e-01 -393 3.732502e+06 4.992824e-01 -394 3.767038e+06 4.992751e-01 -395 3.801894e+06 4.992677e-01 -396 3.837072e+06 4.992601e-01 -397 3.872576e+06 4.992525e-01 -398 3.908409e+06 4.992447e-01 -399 3.944573e+06 4.992367e-01 -400 3.981072e+06 4.992286e-01 -401 4.017908e+06 4.992204e-01 -402 4.055085e+06 4.992120e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.992035e-01 -404 4.130475e+06 4.991948e-01 -405 4.168694e+06 4.991860e-01 -406 4.207266e+06 4.991770e-01 -407 4.246196e+06 4.991679e-01 -408 4.285485e+06 4.991586e-01 -409 4.325138e+06 4.991492e-01 -410 4.365158e+06 4.991396e-01 -411 4.405549e+06 4.991298e-01 -412 4.446313e+06 4.991198e-01 -413 4.487454e+06 4.991097e-01 -414 4.528976e+06 4.990994e-01 -415 4.570882e+06 4.990890e-01 -416 4.613176e+06 4.990783e-01 -417 4.655861e+06 4.990675e-01 -418 4.698941e+06 4.990565e-01 -419 4.742420e+06 4.990452e-01 -420 4.786301e+06 4.990338e-01 -421 4.830588e+06 4.990222e-01 -422 4.875285e+06 4.990105e-01 -423 4.920395e+06 4.989985e-01 -424 4.965923e+06 4.989863e-01 -425 5.011872e+06 4.989739e-01 -426 5.058247e+06 4.989612e-01 -427 5.105050e+06 4.989484e-01 -428 5.152286e+06 4.989354e-01 -429 5.199960e+06 4.989221e-01 -430 5.248075e+06 4.989086e-01 -431 5.296634e+06 4.988949e-01 -432 5.345644e+06 4.988809e-01 -433 5.395106e+06 4.988667e-01 -434 5.445027e+06 4.988523e-01 -435 5.495409e+06 4.988377e-01 -436 5.546257e+06 4.988228e-01 -437 5.597576e+06 4.988076e-01 -438 5.649370e+06 4.987922e-01 -439 5.701643e+06 4.987765e-01 -440 5.754399e+06 4.987606e-01 -441 5.807644e+06 4.987444e-01 -442 5.861382e+06 4.987280e-01 -443 5.915616e+06 4.987112e-01 -444 5.970353e+06 4.986942e-01 -445 6.025596e+06 4.986770e-01 -446 6.081350e+06 4.986594e-01 -447 6.137620e+06 4.986416e-01 -448 6.194411e+06 4.986234e-01 -449 6.251727e+06 4.986050e-01 -450 6.309573e+06 4.985862e-01 -451 6.367955e+06 4.985672e-01 -452 6.426877e+06 4.985479e-01 -453 6.486344e+06 4.985282e-01 -454 6.546362e+06 4.985082e-01 -455 6.606934e+06 4.984879e-01 -456 6.668068e+06 4.984673e-01 -457 6.729767e+06 4.984464e-01 -458 6.792036e+06 4.984251e-01 -459 6.854882e+06 4.984035e-01 -460 6.918310e+06 4.983815e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.983592e-01 -462 7.046931e+06 4.983365e-01 -463 7.112135e+06 4.983135e-01 -464 7.177943e+06 4.982901e-01 -465 7.244360e+06 4.982664e-01 -466 7.311391e+06 4.982422e-01 -467 7.379042e+06 4.982177e-01 -468 7.447320e+06 4.981929e-01 -469 7.516229e+06 4.981676e-01 -470 7.585776e+06 4.981419e-01 -471 7.655966e+06 4.981159e-01 -472 7.726806e+06 4.980894e-01 -473 7.798301e+06 4.980626e-01 -474 7.870458e+06 4.980353e-01 -475 7.943282e+06 4.980076e-01 -476 8.016781e+06 4.979795e-01 -477 8.090959e+06 4.979510e-01 -478 8.165824e+06 4.979220e-01 -479 8.241381e+06 4.978926e-01 -480 8.317638e+06 4.978628e-01 -481 8.394600e+06 4.978325e-01 -482 8.472274e+06 4.978017e-01 -483 8.550667e+06 4.977705e-01 -484 8.629785e+06 4.977389e-01 -485 8.709636e+06 4.977067e-01 -486 8.790225e+06 4.976741e-01 -487 8.871560e+06 4.976410e-01 -488 8.953648e+06 4.976074e-01 -489 9.036495e+06 4.975734e-01 -490 9.120108e+06 4.975388e-01 -491 9.204496e+06 4.975037e-01 -492 9.289664e+06 4.974682e-01 -493 9.375620e+06 4.974321e-01 -494 9.462372e+06 4.973955e-01 -495 9.549926e+06 4.973583e-01 -496 9.638290e+06 4.973207e-01 -497 9.727472e+06 4.972825e-01 -498 9.817479e+06 4.972437e-01 -499 9.908319e+06 4.972045e-01 -500 1.000000e+07 4.971646e-01 -501 1.009253e+07 4.971242e-01 -502 1.018591e+07 4.970832e-01 -503 1.028016e+07 4.970417e-01 -504 1.037528e+07 4.969996e-01 -505 1.047129e+07 4.969568e-01 -506 1.056818e+07 4.969135e-01 -507 1.066596e+07 4.968697e-01 -508 1.076465e+07 4.968252e-01 -509 1.086426e+07 4.967800e-01 -510 1.096478e+07 4.967343e-01 -511 1.106624e+07 4.966880e-01 -512 1.116863e+07 4.966410e-01 -513 1.127197e+07 4.965934e-01 -514 1.137627e+07 4.965451e-01 -515 1.148154e+07 4.964962e-01 -516 1.158777e+07 4.964467e-01 -517 1.169499e+07 4.963965e-01 -518 1.180321e+07 4.963456e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.962941e-01 -520 1.202264e+07 4.962418e-01 -521 1.213389e+07 4.961889e-01 -522 1.224616e+07 4.961353e-01 -523 1.235947e+07 4.960810e-01 -524 1.247384e+07 4.960259e-01 -525 1.258925e+07 4.959702e-01 -526 1.270574e+07 4.959138e-01 -527 1.282331e+07 4.958566e-01 -528 1.294196e+07 4.957986e-01 -529 1.306171e+07 4.957400e-01 -530 1.318257e+07 4.956806e-01 -531 1.330454e+07 4.956204e-01 -532 1.342765e+07 4.955595e-01 -533 1.355189e+07 4.954977e-01 -534 1.367729e+07 4.954353e-01 -535 1.380384e+07 4.953720e-01 -536 1.393157e+07 4.953079e-01 -537 1.406048e+07 4.952430e-01 -538 1.419058e+07 4.951774e-01 -539 1.432188e+07 4.951109e-01 -540 1.445440e+07 4.950435e-01 -541 1.458814e+07 4.949754e-01 -542 1.472313e+07 4.949064e-01 -543 1.485936e+07 4.948365e-01 -544 1.499685e+07 4.947658e-01 -545 1.513561e+07 4.946942e-01 -546 1.527566e+07 4.946218e-01 -547 1.541700e+07 4.945485e-01 -548 1.555966e+07 4.944742e-01 -549 1.570363e+07 4.943991e-01 -550 1.584893e+07 4.943231e-01 -551 1.599558e+07 4.942461e-01 -552 1.614359e+07 4.941682e-01 -553 1.629296e+07 4.940894e-01 -554 1.644372e+07 4.940096e-01 -555 1.659587e+07 4.939289e-01 -556 1.674943e+07 4.938472e-01 -557 1.690441e+07 4.937646e-01 -558 1.706082e+07 4.936809e-01 -559 1.721869e+07 4.935963e-01 -560 1.737801e+07 4.935107e-01 -561 1.753881e+07 4.934240e-01 -562 1.770109e+07 4.933363e-01 -563 1.786488e+07 4.932476e-01 -564 1.803018e+07 4.931579e-01 -565 1.819701e+07 4.930671e-01 -566 1.836538e+07 4.929752e-01 -567 1.853532e+07 4.928823e-01 -568 1.870682e+07 4.927882e-01 -569 1.887991e+07 4.926931e-01 -570 1.905461e+07 4.925969e-01 -571 1.923092e+07 4.924995e-01 -572 1.940886e+07 4.924010e-01 -573 1.958845e+07 4.923014e-01 -574 1.976970e+07 4.922006e-01 -575 1.995262e+07 4.920987e-01 -576 2.013724e+07 4.919956e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.918913e-01 -578 2.051162e+07 4.917858e-01 -579 2.070141e+07 4.916791e-01 -580 2.089296e+07 4.915711e-01 -581 2.108628e+07 4.914620e-01 -582 2.128139e+07 4.913516e-01 -583 2.147830e+07 4.912399e-01 -584 2.167704e+07 4.911270e-01 -585 2.187762e+07 4.910128e-01 -586 2.208005e+07 4.908973e-01 -587 2.228435e+07 4.907805e-01 -588 2.249055e+07 4.906624e-01 -589 2.269865e+07 4.905429e-01 -590 2.290868e+07 4.904221e-01 -591 2.312065e+07 4.903000e-01 -592 2.333458e+07 4.901765e-01 -593 2.355049e+07 4.900516e-01 -594 2.376840e+07 4.899254e-01 -595 2.398833e+07 4.897977e-01 -596 2.421029e+07 4.896686e-01 -597 2.443431e+07 4.895381e-01 -598 2.466039e+07 4.894062e-01 -599 2.488857e+07 4.892728e-01 -600 2.511886e+07 4.891380e-01 -601 2.535129e+07 4.890017e-01 -602 2.558586e+07 4.888640e-01 -603 2.582260e+07 4.887247e-01 -604 2.606154e+07 4.885840e-01 -605 2.630268e+07 4.884417e-01 -606 2.654606e+07 4.882979e-01 -607 2.679168e+07 4.881526e-01 -608 2.703958e+07 4.880058e-01 -609 2.728978e+07 4.878574e-01 -610 2.754229e+07 4.877075e-01 -611 2.779713e+07 4.875560e-01 -612 2.805434e+07 4.874030e-01 -613 2.831392e+07 4.872483e-01 -614 2.857591e+07 4.870921e-01 -615 2.884032e+07 4.869343e-01 -616 2.910717e+07 4.867749e-01 -617 2.937650e+07 4.866140e-01 -618 2.964831e+07 4.864514e-01 -619 2.992265e+07 4.862872e-01 -620 3.019952e+07 4.861214e-01 -621 3.047895e+07 4.859540e-01 -622 3.076097e+07 4.857849e-01 -623 3.104560e+07 4.856143e-01 -624 3.133286e+07 4.854420e-01 -625 3.162278e+07 4.852682e-01 -626 3.191538e+07 4.850927e-01 -627 3.221069e+07 4.849156e-01 -628 3.250873e+07 4.847369e-01 -629 3.280953e+07 4.845566e-01 -630 3.311311e+07 4.843748e-01 -631 3.341950e+07 4.841913e-01 -632 3.372873e+07 4.840062e-01 -633 3.404082e+07 4.838196e-01 -634 3.435579e+07 4.836314e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.834417e-01 -636 3.499452e+07 4.832504e-01 -637 3.531832e+07 4.830576e-01 -638 3.564511e+07 4.828633e-01 -639 3.597493e+07 4.826676e-01 -640 3.630781e+07 4.824703e-01 -641 3.664376e+07 4.822716e-01 -642 3.698282e+07 4.820715e-01 -643 3.732502e+07 4.818699e-01 -644 3.767038e+07 4.816670e-01 -645 3.801894e+07 4.814628e-01 -646 3.837072e+07 4.812572e-01 -647 3.872576e+07 4.810503e-01 -648 3.908409e+07 4.808422e-01 -649 3.944573e+07 4.806328e-01 -650 3.981072e+07 4.804223e-01 -651 4.017908e+07 4.802106e-01 -652 4.055085e+07 4.799978e-01 -653 4.092607e+07 4.797840e-01 -654 4.130475e+07 4.795692e-01 -655 4.168694e+07 4.793534e-01 -656 4.207266e+07 4.791366e-01 -657 4.246196e+07 4.789191e-01 -658 4.285485e+07 4.787007e-01 -659 4.325138e+07 4.784816e-01 -660 4.365158e+07 4.782618e-01 -661 4.405549e+07 4.780414e-01 -662 4.446313e+07 4.778205e-01 -663 4.487454e+07 4.775990e-01 -664 4.528976e+07 4.773772e-01 -665 4.570882e+07 4.771551e-01 -666 4.613176e+07 4.769327e-01 -667 4.655861e+07 4.767102e-01 -668 4.698941e+07 4.764876e-01 -669 4.742420e+07 4.762650e-01 -670 4.786301e+07 4.760425e-01 -671 4.830588e+07 4.758203e-01 -672 4.875285e+07 4.755984e-01 -673 4.920395e+07 4.753768e-01 -674 4.965923e+07 4.751558e-01 -675 5.011872e+07 4.749355e-01 -676 5.058247e+07 4.747159e-01 -677 5.105050e+07 4.744971e-01 -678 5.152286e+07 4.742794e-01 -679 5.199960e+07 4.740628e-01 -680 5.248075e+07 4.738474e-01 -681 5.296634e+07 4.736334e-01 -682 5.345644e+07 4.734210e-01 -683 5.395106e+07 4.732102e-01 -684 5.445027e+07 4.730013e-01 -685 5.495409e+07 4.727943e-01 -686 5.546257e+07 4.725895e-01 -687 5.597576e+07 4.723869e-01 -688 5.649370e+07 4.721868e-01 -689 5.701643e+07 4.719893e-01 -690 5.754399e+07 4.717946e-01 -691 5.807644e+07 4.716029e-01 -692 5.861382e+07 4.714144e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.712291e-01 -694 5.970353e+07 4.710474e-01 -695 6.025596e+07 4.708695e-01 -696 6.081350e+07 4.706954e-01 -697 6.137620e+07 4.705255e-01 -698 6.194411e+07 4.703599e-01 -699 6.251727e+07 4.701988e-01 -700 6.309573e+07 4.700425e-01 -701 6.367955e+07 4.698912e-01 -702 6.426877e+07 4.697450e-01 -703 6.486344e+07 4.696043e-01 -704 6.546362e+07 4.694692e-01 -705 6.606934e+07 4.693400e-01 -706 6.668068e+07 4.692169e-01 -707 6.729767e+07 4.691002e-01 -708 6.792036e+07 4.689901e-01 -709 6.854882e+07 4.688868e-01 -710 6.918310e+07 4.687905e-01 -711 6.982324e+07 4.687016e-01 -712 7.046931e+07 4.686203e-01 -713 7.112135e+07 4.685469e-01 -714 7.177943e+07 4.684815e-01 -715 7.244360e+07 4.684244e-01 -716 7.311391e+07 4.683760e-01 -717 7.379042e+07 4.683364e-01 -718 7.447320e+07 4.683059e-01 -719 7.516229e+07 4.682848e-01 -720 7.585776e+07 4.682733e-01 -721 7.655966e+07 4.682716e-01 -722 7.726806e+07 4.682801e-01 -723 7.798301e+07 4.682990e-01 -724 7.870458e+07 4.683284e-01 -725 7.943282e+07 4.683687e-01 -726 8.016781e+07 4.684202e-01 -727 8.090959e+07 4.684829e-01 -728 8.165824e+07 4.685572e-01 -729 8.241381e+07 4.686432e-01 -730 8.317638e+07 4.687413e-01 -731 8.394600e+07 4.688515e-01 -732 8.472274e+07 4.689741e-01 -733 8.550667e+07 4.691092e-01 -734 8.629785e+07 4.692571e-01 -735 8.709636e+07 4.694179e-01 -736 8.790225e+07 4.695917e-01 -737 8.871560e+07 4.697786e-01 -738 8.953648e+07 4.699789e-01 -739 9.036495e+07 4.701925e-01 -740 9.120108e+07 4.704196e-01 -741 9.204496e+07 4.706601e-01 -742 9.289664e+07 4.709142e-01 -743 9.375620e+07 4.711819e-01 -744 9.462372e+07 4.714631e-01 -745 9.549926e+07 4.717578e-01 -746 9.638290e+07 4.720659e-01 -747 9.727472e+07 4.723873e-01 -748 9.817479e+07 4.727220e-01 -749 9.908319e+07 4.730696e-01 -750 1.000000e+08 4.734300e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.738030e-01 -752 1.018591e+08 4.741882e-01 -753 1.028016e+08 4.745854e-01 -754 1.037528e+08 4.749941e-01 -755 1.047129e+08 4.754140e-01 -756 1.056818e+08 4.758445e-01 -757 1.066596e+08 4.762851e-01 -758 1.076465e+08 4.767353e-01 -759 1.086426e+08 4.771944e-01 -760 1.096478e+08 4.776617e-01 -761 1.106624e+08 4.781365e-01 -762 1.116863e+08 4.786179e-01 -763 1.127197e+08 4.791051e-01 -764 1.137627e+08 4.795971e-01 -765 1.148154e+08 4.800929e-01 -766 1.158777e+08 4.805914e-01 -767 1.169499e+08 4.810915e-01 -768 1.180321e+08 4.815919e-01 -769 1.191242e+08 4.820913e-01 -770 1.202264e+08 4.825885e-01 -771 1.213389e+08 4.830819e-01 -772 1.224616e+08 4.835701e-01 -773 1.235947e+08 4.840515e-01 -774 1.247384e+08 4.845245e-01 -775 1.258925e+08 4.849874e-01 -776 1.270574e+08 4.854385e-01 -777 1.282331e+08 4.858759e-01 -778 1.294196e+08 4.862979e-01 -779 1.306171e+08 4.867026e-01 -780 1.318257e+08 4.870880e-01 -781 1.330454e+08 4.874522e-01 -782 1.342765e+08 4.877931e-01 -783 1.355189e+08 4.881090e-01 -784 1.367729e+08 4.883977e-01 -785 1.380384e+08 4.886573e-01 -786 1.393157e+08 4.888859e-01 -787 1.406048e+08 4.890815e-01 -788 1.419058e+08 4.892423e-01 -789 1.432188e+08 4.893665e-01 -790 1.445440e+08 4.894524e-01 -791 1.458814e+08 4.894983e-01 -792 1.472313e+08 4.895027e-01 -793 1.485936e+08 4.894642e-01 -794 1.499685e+08 4.893815e-01 -795 1.513561e+08 4.892535e-01 -796 1.527566e+08 4.890794e-01 -797 1.541700e+08 4.888583e-01 -798 1.555966e+08 4.885896e-01 -799 1.570363e+08 4.882731e-01 -800 1.584893e+08 4.879086e-01 -801 1.599558e+08 4.874962e-01 -802 1.614359e+08 4.870364e-01 -803 1.629296e+08 4.865297e-01 -804 1.644372e+08 4.859770e-01 -805 1.659587e+08 4.853796e-01 -806 1.674943e+08 4.847389e-01 -807 1.690441e+08 4.840566e-01 -808 1.706082e+08 4.833348e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.825756e-01 -810 1.737801e+08 4.817818e-01 -811 1.753881e+08 4.809560e-01 -812 1.770109e+08 4.801015e-01 -813 1.786488e+08 4.792214e-01 -814 1.803018e+08 4.783195e-01 -815 1.819701e+08 4.773996e-01 -816 1.836538e+08 4.764655e-01 -817 1.853532e+08 4.755216e-01 -818 1.870682e+08 4.745722e-01 -819 1.887991e+08 4.736218e-01 -820 1.905461e+08 4.726751e-01 -821 1.923092e+08 4.717368e-01 -822 1.940886e+08 4.708119e-01 -823 1.958845e+08 4.699052e-01 -824 1.976970e+08 4.690216e-01 -825 1.995262e+08 4.681662e-01 -826 2.013724e+08 4.673440e-01 -827 2.032357e+08 4.665597e-01 -828 2.051162e+08 4.658183e-01 -829 2.070141e+08 4.651247e-01 -830 2.089296e+08 4.644833e-01 -831 2.108628e+08 4.638987e-01 -832 2.128139e+08 4.633752e-01 -833 2.147830e+08 4.629170e-01 -834 2.167704e+08 4.625280e-01 -835 2.187762e+08 4.622116e-01 -836 2.208005e+08 4.619714e-01 -837 2.228435e+08 4.618101e-01 -838 2.249055e+08 4.617303e-01 -839 2.269865e+08 4.617343e-01 -840 2.290868e+08 4.618238e-01 -841 2.312065e+08 4.619998e-01 -842 2.333458e+08 4.622630e-01 -843 2.355049e+08 4.626135e-01 -844 2.376840e+08 4.630506e-01 -845 2.398833e+08 4.635730e-01 -846 2.421029e+08 4.641785e-01 -847 2.443431e+08 4.648642e-01 -848 2.466039e+08 4.656264e-01 -849 2.488857e+08 4.664602e-01 -850 2.511886e+08 4.673601e-01 -851 2.535129e+08 4.683194e-01 -852 2.558586e+08 4.693302e-01 -853 2.582260e+08 4.703839e-01 -854 2.606154e+08 4.714705e-01 -855 2.630268e+08 4.725793e-01 -856 2.654606e+08 4.736982e-01 -857 2.679168e+08 4.748145e-01 -858 2.703958e+08 4.759145e-01 -859 2.728978e+08 4.769837e-01 -860 2.754229e+08 4.780072e-01 -861 2.779713e+08 4.789696e-01 -862 2.805434e+08 4.798555e-01 -863 2.831392e+08 4.806493e-01 -864 2.857591e+08 4.813363e-01 -865 2.884032e+08 4.819021e-01 -866 2.910717e+08 4.823338e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.826198e-01 -868 2.964831e+08 4.827501e-01 -869 2.992265e+08 4.827172e-01 -870 3.019952e+08 4.825157e-01 -871 3.047895e+08 4.821432e-01 -872 3.076097e+08 4.816000e-01 -873 3.104560e+08 4.808896e-01 -874 3.133286e+08 4.800183e-01 -875 3.162278e+08 4.789960e-01 -876 3.191538e+08 4.778350e-01 -877 3.221069e+08 4.765509e-01 -878 3.250873e+08 4.751615e-01 -879 3.280953e+08 4.736871e-01 -880 3.311311e+08 4.721497e-01 -881 3.341950e+08 4.705729e-01 -882 3.372873e+08 4.689814e-01 -883 3.404082e+08 4.674006e-01 -884 3.435579e+08 4.658560e-01 -885 3.467369e+08 4.643730e-01 -886 3.499452e+08 4.629765e-01 -887 3.531832e+08 4.616903e-01 -888 3.564511e+08 4.605371e-01 -889 3.597493e+08 4.595377e-01 -890 3.630781e+08 4.587112e-01 -891 3.664376e+08 4.580744e-01 -892 3.698282e+08 4.576413e-01 -893 3.732502e+08 4.574233e-01 -894 3.767038e+08 4.574286e-01 -895 3.801894e+08 4.576617e-01 -896 3.837072e+08 4.581236e-01 -897 3.872576e+08 4.588109e-01 -898 3.908409e+08 4.597157e-01 -899 3.944573e+08 4.608253e-01 -900 3.981072e+08 4.621219e-01 -901 4.017908e+08 4.635823e-01 -902 4.055085e+08 4.651775e-01 -903 4.092607e+08 4.668733e-01 -904 4.130475e+08 4.686299e-01 -905 4.168694e+08 4.704028e-01 -906 4.207266e+08 4.721432e-01 -907 4.246196e+08 4.737993e-01 -908 4.285485e+08 4.753179e-01 -909 4.325138e+08 4.766461e-01 -910 4.365158e+08 4.777334e-01 -911 4.405549e+08 4.785343e-01 -912 4.446313e+08 4.790108e-01 -913 4.487454e+08 4.791345e-01 -914 4.528976e+08 4.788890e-01 -915 4.570882e+08 4.782711e-01 -916 4.613176e+08 4.772919e-01 -917 4.655861e+08 4.759768e-01 -918 4.698941e+08 4.743647e-01 -919 4.742420e+08 4.725065e-01 -920 4.786301e+08 4.704634e-01 -921 4.830588e+08 4.683037e-01 -922 4.875285e+08 4.661006e-01 -923 4.920395e+08 4.639291e-01 -924 4.965923e+08 4.618637e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.599754e-01 -926 5.058247e+08 4.583301e-01 -927 5.105050e+08 4.569865e-01 -928 5.152286e+08 4.559944e-01 -929 5.199960e+08 4.553937e-01 -930 5.248075e+08 4.552127e-01 -931 5.296634e+08 4.554668e-01 -932 5.345644e+08 4.561577e-01 -933 5.395106e+08 4.572716e-01 -934 5.445027e+08 4.587784e-01 -935 5.495409e+08 4.606304e-01 -936 5.546257e+08 4.627618e-01 -937 5.597576e+08 4.650887e-01 -938 5.649370e+08 4.675102e-01 -939 5.701643e+08 4.699110e-01 -940 5.754399e+08 4.721660e-01 -941 5.807644e+08 4.741468e-01 -942 5.861382e+08 4.757298e-01 -943 5.915616e+08 4.768060e-01 -944 5.970353e+08 4.772913e-01 -945 6.025596e+08 4.771352e-01 -946 6.081350e+08 4.763277e-01 -947 6.137620e+08 4.749021e-01 -948 6.194411e+08 4.729343e-01 -949 6.251727e+08 4.705371e-01 -950 6.309573e+08 4.678518e-01 -951 6.367955e+08 4.650379e-01 -952 6.426877e+08 4.622616e-01 -953 6.486344e+08 4.596860e-01 -954 6.546362e+08 4.574619e-01 -955 6.606934e+08 4.557203e-01 -956 6.668068e+08 4.545670e-01 -957 6.729767e+08 4.540781e-01 -958 6.792036e+08 4.542961e-01 -959 6.854882e+08 4.552261e-01 -960 6.918310e+08 4.568329e-01 -961 6.982324e+08 4.590377e-01 -962 7.046931e+08 4.617158e-01 -963 7.112135e+08 4.646977e-01 -964 7.177943e+08 4.677730e-01 -965 7.244360e+08 4.707011e-01 -966 7.311391e+08 4.732285e-01 -967 7.379042e+08 4.751135e-01 -968 7.447320e+08 4.761559e-01 -969 7.516229e+08 4.762257e-01 -970 7.585776e+08 4.752859e-01 -971 7.655966e+08 4.734034e-01 -972 7.726806e+08 4.707432e-01 -973 7.798301e+08 4.675499e-01 -974 7.870458e+08 4.641178e-01 -975 7.943282e+08 4.607590e-01 -976 8.016781e+08 4.577738e-01 -977 8.090959e+08 4.554256e-01 -978 8.165824e+08 4.539239e-01 -979 8.241381e+08 4.534113e-01 -980 8.317638e+08 4.539539e-01 -981 8.394600e+08 4.555336e-01 -982 8.472274e+08 4.580405e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.612684e-01 -984 8.629785e+08 4.649158e-01 -985 8.709636e+08 4.685996e-01 -986 8.790225e+08 4.718860e-01 -987 8.871560e+08 4.743435e-01 -988 8.953648e+08 4.756120e-01 -989 9.036495e+08 4.754745e-01 -990 9.120108e+08 4.739098e-01 -991 9.204496e+08 4.711068e-01 -992 9.289664e+08 4.674350e-01 -993 9.375620e+08 4.633801e-01 -994 9.462372e+08 4.594665e-01 -995 9.549926e+08 4.561860e-01 -996 9.638290e+08 4.539441e-01 -997 9.727472e+08 4.530238e-01 -998 9.817479e+08 4.535629e-01 -999 9.908319e+08 4.555368e-01 -1000 1.000000e+09 4.587449e-01 - -CPU time since last call: 0.040 seconds. - -Total CPU time: 0.040 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4826.535156 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 772.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec deleted file mode 100644 index 3a39de9..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_22_ESCC_3901025_V09 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec deleted file mode 100644 index 8f1e4f1..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/TP_AWG_22_ESCC_3901025_V09_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_22_ESCC_3901025_V09_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/analytic_solution.dat_reference deleted file mode 100644 index 355b8ca..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49949101125173490 -2.5821648738144315E-003 - 100926.21909870484 0.49949036843622219 -2.6057617026392301E-003 - 101861.01701559752 0.49948971515091434 -2.6295689457178735E-003 - 102804.47320933097 0.49948905125107274 -2.6535883589446259E-003 - 103756.66787451849 0.49948837659084183 -2.6778217105310580E-003 - 104717.68194855202 0.49948769102326940 -2.7022707810648132E-003 - 105687.59711848051 0.49948699440033312 -2.7269373635723303E-003 - 106666.49582795388 0.49948628657296579 -2.7518232635810624E-003 - 107654.46128423158 0.49948556739108274 -2.7769302991829470E-003 - 108651.57746525372 0.49948483670361038 -2.8022603010998330E-003 - 109657.92912678099 0.49948409435851787 -2.8278151127499851E-003 - 110673.60180959746 0.49948334020284707 -2.8535965903159501E-003 - 111698.68184678226 0.49948257408274799 -2.8796066028144857E-003 - 112733.25637104872 0.49948179584351182 -2.9058470321671023E-003 - 113777.41332214902 0.49948100532960971 -2.9323197732738634E-003 - 114831.24145435111 0.49948020238472890 -2.9590267340878222E-003 - 115894.83034398119 0.49947938685181459 -2.9859698356923029E-003 - 116968.27039703846 0.49947855857310985 -3.0131510123801177E-003 - 118051.65285688055 0.49947771739020058 -3.0405722117346000E-003 - 119145.06981197748 0.49947686314405959 -3.0682353947135144E-003 - 120248.61420374122 0.49947599567509343 -3.0961425357354604E-003 - 121362.37983442418 0.49947511482319146 -3.1242956227686591E-003 - 122486.46137509307 0.49947422042777634 -3.1526966574226037E-003 - 123620.95437367691 0.49947331232785513 -3.1813476550431536E-003 - 124765.95526308684 0.49947239036207486 -3.2102506448095005E-003 - 125921.56136941510 0.49947145436877760 -3.2394076698357257E-003 - 127087.87092020595 0.49947050418605782 -3.2688207872749605E-003 - 128264.98305280598 0.49946953965182250 -3.2984920684273346E-003 - 129452.99782279160 0.49946856060385281 -3.3284235988512018E-003 - 130652.01621247199 0.49946756687986699 -3.3586174784791339E-003 - 131862.14013947485 0.49946655831758491 -3.3890758217367668E-003 - 133083.47246540760 0.49946553475479677 -3.4198007576670378E-003 - 134316.11700460155 0.49946449602943005 -3.4507944300579347E-003 - 135560.17853293690 0.49946344197962200 -3.4820589975754789E-003 - 136815.76279674706 0.49946237244379083 -3.5135966339005552E-003 - 138082.97652180924 0.49946128726071110 -3.5454095278717040E-003 - 139361.92742241436 0.49946018626959010 -3.5774998836326541E-003 - 140652.72421052365 0.49945906931014428 -3.6098699207843185E-003 - 141955.47660501016 0.49945793622268142 -3.6425218745444409E-003 - 143270.29534098294 0.49945678684818057 -3.6754579959101638E-003 - 144597.29217920196 0.49945562102837565 -3.7086805518286993E-003 - 145936.57991557577 0.49945443860584143 -3.7421918253735583E-003 - 147288.27239075018 0.49945323942407871 -3.7759941159260439E-003 - 148652.48449978570 0.49945202332760336 -3.8100897393648228E-003 - 150029.33220192167 0.49945079016203614 -3.8444810282611385E-003 - 151418.93253043521 0.49944953977419437 -3.8791703320814621E-003 - 152821.40360258709 0.49944827201218400 -3.9141600173970767E-003 - 154236.86462966274 0.49944698672549387 -3.9494524681009235E-003 - 155665.43592710621 0.49944568376509180 -3.9850500856318345E-003 - 157107.23892474489 0.49944436298352080 -4.0209552892076028E-003 - 158562.39617711373 0.49944302423499770 -4.0571705160641737E-003 - 160031.03137387018 0.49944166737551149 -4.0936982217045746E-003 - 161513.26935030895 0.49944029226292369 -4.1305408801553421E-003 - 163009.23609797412 0.49943889875706993 -4.1677009842318756E-003 - 164519.05877536608 0.49943748671986082 -4.2051810458121107E-003 - 166042.86571875296 0.49943605601538626 -4.2429835961199282E-003 - 167580.78645307687 0.49943460651001620 -4.2811111860161883E-003 - 169132.95170296470 0.49943313807250700 -4.3195663863009742E-003 - 170699.49340384078 0.49943165057410438 -4.3583517880238197E-003 - 172280.54471313921 0.49943014388864782 -4.3974700028041203E-003 - 173876.24002162504 0.49942861789267606 -4.4369236631610805E-003 - 175486.71496481521 0.49942707246553109 -4.4767154228544112E-003 - 177112.10643450869 0.49942550748946390 -4.5168479572340872E-003 - 178752.55259042355 0.49942392284973702 -4.5573239636005122E-003 - 180408.19287193808 0.49942231843473051 -4.5981461615759982E-003 - 182079.16800994624 0.49942069413604495 -4.6393172934858957E-003 - 183765.62003881723 0.49941904984860330 -4.6808401247500873E-003 - 185467.69230846976 0.49941738547075398 -4.7227174442857839E-003 - 187185.52949655792 0.49941570090437171 -4.7649520649215718E-003 - 188919.27762076643 0.49941399605495757 -4.8075468238207957E-003 - 190669.08405122519 0.49941227083173600 -4.8505045829172122E-003 - 192435.09752303324 0.49941052514775447 -4.8938282293614528E-003 - 194217.46814890244 0.49940875891997599 -4.9375206759777494E-003 - 196016.34743191858 0.49940697206937412 -4.9815848617325601E-003 - 197831.88827841621 0.49940516452102396 -5.0260237522140221E-003 - 199664.24501097933 0.49940333620419092 -5.0708403401221952E-003 - 201513.57338155585 0.49940148705241821 -5.1160376457704774E-003 - 203380.03058469799 0.49939961700360952 -5.1616187175984474E-003 - 205263.77527092522 0.49939772600011145 -5.2075866326947778E-003 - 207164.96756020669 0.49939581398879029 -5.2539444973317912E-003 - 209083.76905557499 0.49939388092110903 -5.3006954475106694E-003 - 211020.34285685964 0.49939192675319621 -5.3478426495164747E-003 - 212974.85357455187 0.49938995144591558 -5.3953893004852907E-003 - 214947.46734379805 0.49938795496492971 -5.4433386289801586E-003 - 216938.35183851823 0.49938593728075942 -5.4916938955782398E-003 - 218947.67628566208 0.49938389836884112 -5.5404583934678770E-003 - 220975.61147959033 0.49938183820957588 -5.5896354490547083E-003 - 223022.32979659364 0.49937975678837815 -5.6392284225783816E-003 - 225088.00520954619 0.49937765409571711 -5.6892407087383735E-003 - 227172.81330269075 0.49937553012715341 -5.7396757373283265E-003 - 229276.93128656488 0.49937338488337135 -5.7905369738797683E-003 - 231400.53801306541 0.49937121837020593 -5.8418279203140532E-003 - 233543.81399064770 0.49936903059866167 -5.8935521156026141E-003 - 235706.94139967277 0.49936682158493151 -5.9457131364349025E-003 - 237890.10410788958 0.49936459135040345 -5.9983145978937634E-003 - 240093.48768606517 0.49936233992166512 -6.0513601541380795E-003 - 242317.27942376008 0.49936006733050081 -6.1048534990915714E-003 - 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336920570.59802741 0.47965319163364506 -0.81800058653652752 - 340041193.27037024 0.47909134852444163 -0.88337286186693653 - 343190719.74590427 0.47854181645639554 -0.94921670294893601 - 346369417.73717344 0.47801326101205865 -1.0155401020101085 - 349577557.43632787 0.47751428353865444 -1.0823536031263468 - 352815411.53808904 0.47705326365074363 -1.1496703457926096 - 356083255.26292741 0.47663819737793373 -1.2175060646866347 - 359381366.38046259 0.47627653288865707 -1.2858790427462810 - 362710025.23306483 0.47597500572530882 -1.3548100149905662 - 366069514.75969058 0.47573947553500856 -1.4243220208168903 - 369460120.51993102 0.47557476640049778 -1.4944402028225783 - 372882130.71828300 0.47548451309063028 -1.5651915505685721 - 376335836.22865325 0.47547101587749580 -1.6366045881742457 - 379821530.61907363 0.47553510701692042 -1.7087090052658558 - 383339510.17666054 0.47567603255869984 -1.7815352316695972 - 386890073.93279833 0.47589135382497727 -1.8551139574145461 - 390473523.68855560 0.47617687363326949 -1.9294756011681016 - 394090164.04034477 0.47652659308573803 -2.0046497322281605 - 397740302.40580368 0.47693270541419847 -2.0806644536845389 - 401424249.04993260 0.47738563385064897 -2.1575457573465737 - 405142317.11146557 0.47787412065123497 -2.2353168644676615 - 408894822.62948561 0.47838537408545589 -2.3139975700740365 - 412682084.57029516 0.47890527925469062 -2.3936036126312139 - 416504424.85451853 0.47941867688113099 -2.4741460945740537 - 420362168.38447183 0.47990971160594764 -2.5556309825153809 - 424255643.07177860 0.48036224782006293 -2.6380587182782085 - 428185179.86524069 0.48076034669053241 -2.7214239727761456 - 432151112.77897620 0.48108879303755603 -2.8057155737018009 - 436153778.92080057 0.48133365540198914 -2.8909166345574580 - 440193518.52088791 0.48148285749751685 -2.9770049065168713 - 444270674.96068919 0.48152673484304159 -3.0639533659110598 - 448385594.80211818 0.48145854733334370 3.1314542681187962 - 452538627.81701666 0.48127491739001904 3.0428812538493717 - 456730127.01687467 0.48097616454483000 2.9535484176259770 - 460960448.68284386 0.48056651099923731 2.8634915096586426 - 465229952.39601988 0.48005413871988861 2.7727449829658570 - 469539001.06800532 0.47945108648907570 2.6813404120735305 - 473887960.97176510 0.47877298427581522 2.5893049242038502 - 478277201.77274853 0.47803863140419678 2.4966597103764716 - 482707096.56031883 0.47726943332644090 2.4034186816860981 - 487178021.87946409 0.47648871854838071 2.3095873302962153 - 491690357.76280212 0.47572096186080487 2.2151618462407705 - 496244487.76289135 0.47499094230655453 2.1201285310434548 - 500840798.98482126 0.47432286443422844 2.0244635385844139 - 505479682.11912459 0.47373946985400844 1.9281329635575766 - 510161531.47498441 0.47326116365264020 1.8310932889584550 - 514886745.01374871 0.47290517769024787 1.7332921965800381 - 519655724.38276571 0.47268479102503969 1.6346697382612556 - 524468874.94951189 0.47260862739132548 1.5351598599434821 - 529326605.83605665 0.47268005124420409 1.4346922643515696 - 534229329.95383632 0.47289668748875469 1.3331945899572115 - 539177464.03874946 0.47325009530439455 1.2305948723188560 - 544171428.68658876 0.47372563261131623 1.1268242375902677 - 549211648.38877892 0.47430255328924803 1.0218197560798823 - 554298551.56846750 0.47495438226811898 0.91552735621461201 - 559432570.61693895 0.47564961164105302 0.80790466741052269 - 564614141.93036616 0.47635275143436712 0.69892362715152545 - 569843705.94691360 0.47702574941958870 0.58857265790481861 - 575121707.18416142 0.47762976430279835 0.47685819996940476 - 580448594.27689838 0.47812723667585050 0.36380538458115758 - 585824820.01525474 0.47848415583185994 0.24945765484203467 - 591250841.38318694 0.47867237439156196 0.13387519522192798 - 596727119.59733105 0.47867178538252636 1.7132113972835896E-002 - 602254120.14619279 0.47847215732179171 -0.10068756882887106 - 607832312.82972360 0.47807442953766494 -0.21949495382637713 - 613462171.79925191 0.47749130560500486 -0.33920202501526076 - 619144175.59778345 0.47674704437246052 -0.45972775830432216 - 624878807.20068884 0.47587642639219219 -0.58100413708243803 - 630666554.05674052 0.47492295508580817 -0.70298162886369864 - 636507908.12955773 0.47393642236742867 -0.82563371725733958 - 642403365.93942034 0.47297001647264048 -0.94896016109950876 - 648353428.60547137 0.47207717020375750 -1.0729887515703640 - 654358601.88832295 0.47130834249603637 -1.1977754407508834 - 660419396.23303056 0.47070790286119463 -1.3234028065954775 - 666536326.81249201 0.47031125797840351 -1.4499768914793503 - 672709913.57123506 0.47014233389605270 -1.5776225042002090 - 678940681.26960981 0.47021151493807900 -1.7064771161806909 - 685229159.52840579 0.47051414590351320 -1.8366835249175684 - 691575882.87385249 0.47102972603596016 -1.9683815172027748 - 697981390.78306675 0.47172195336268002 -2.1016988553056870 - 704446227.72990513 0.47253980139983270 -2.2367420383147700 - 710970943.23124242 0.47341980626777846 -2.3735874528319449 - 717556091.89369214 0.47428968810621880 -2.5122736990441785 - 724202233.46073151 0.47507330794250469 -2.6527960164494182 - 730909932.86029184 0.47569676572697861 -2.7951037782217720 - 737679760.25277460 0.47609519751835810 -2.9391019109372492 - 744512291.07951283 0.47621957996546416 -3.0846567830421239 - 751408106.11169624 0.47604267176825288 3.0515787142220705 - 758367791.49971902 0.47556318985410012 2.9034096645516874 - 765391938.82301557 0.47480747755166025 2.7541940750999427 - 772481145.14034164 0.47382826034755082 2.6040838967208031 - 779636013.04052210 0.47270052559634035 2.4531937086349118 - 786857150.69368434 0.47151499028109234 2.3015870974006818 - 794145171.90293396 0.47036992601829047 2.1492675108014243 - 801500696.15654135 0.46936223270289618 1.9961744956951017 - 808924348.68059552 0.46857860002493407 1.8421856481759191 - 816416760.49214554 0.46808743539070752 1.6871241244847319 - 823978568.45285118 0.46793205815918587 1.5307712295756222 - 831610415.32309616 0.46812554278038587 1.3728833875713415 - 839312949.81663728 0.46864757841367394 1.2132126173423352 - 847086826.65574193 0.46944378882284848 1.0515293789068705 - 854932706.62683666 0.47042805753710359 0.88764623851837965 - 862851256.63668871 0.47148841566233307 0.72144021250777424 - 870843149.76907241 0.47249683712850132 0.55287100215869067 - 878909065.34199631 0.47332274239333688 0.38199187458414502 - 887049688.96544206 0.47384913902341658 0.20895003000117884 - 895265712.59963822 0.47398930998406313 3.3974249924212302E-002 - 903557834.61389208 0.47370116639754867 -0.14265045752099176 - 911926759.84592986 0.47299623870473978 -0.32061891464939785 - 920373199.66182303 0.47194104099566020 -0.49964769820596000 - 928897872.01645172 0.47065007737068343 -0.67951647106827751 - 937501501.51452708 0.46927154940279697 -0.86010213957836901 - 946184819.47219920 0.46796821898145952 -1.0414006279598440 - 954948563.97919667 0.46689645049682210 -1.2235333432078326 - 963793479.96157956 0.46618619970386194 -1.4067377652068755 - 972720319.24505568 0.46592400132985895 -1.5913434057538034 - 981729840.61888206 0.46614031989478599 -1.7777354695147944 - 990822809.90037870 0.46680231365141039 -1.9663092088239076 - 1000000000.0000000 0.46781317192697514 -2.1574187173554407 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/result_comparison.dat_reference deleted file mode 100644 index b7afeb9..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00249834 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/spice_solution.dat_reference deleted file mode 100644 index b94d323..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:54:15 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.996844e-01 -1 1.009253e+05 4.996844e-01 -2 1.018591e+05 4.996844e-01 -3 1.028016e+05 4.996844e-01 -4 1.037528e+05 4.996844e-01 -5 1.047129e+05 4.996844e-01 -6 1.056818e+05 4.996844e-01 -7 1.066596e+05 4.996843e-01 -8 1.076465e+05 4.996843e-01 -9 1.086426e+05 4.996843e-01 -10 1.096478e+05 4.996843e-01 -11 1.106624e+05 4.996843e-01 -12 1.116863e+05 4.996843e-01 -13 1.127197e+05 4.996843e-01 -14 1.137627e+05 4.996843e-01 -15 1.148154e+05 4.996843e-01 -16 1.158777e+05 4.996843e-01 -17 1.169499e+05 4.996843e-01 -18 1.180321e+05 4.996843e-01 -19 1.191242e+05 4.996843e-01 -20 1.202264e+05 4.996843e-01 -21 1.213389e+05 4.996843e-01 -22 1.224616e+05 4.996843e-01 -23 1.235947e+05 4.996843e-01 -24 1.247384e+05 4.996843e-01 -25 1.258925e+05 4.996842e-01 -26 1.270574e+05 4.996842e-01 -27 1.282331e+05 4.996842e-01 -28 1.294196e+05 4.996842e-01 -29 1.306171e+05 4.996842e-01 -30 1.318257e+05 4.996842e-01 -31 1.330454e+05 4.996842e-01 -32 1.342765e+05 4.996842e-01 -33 1.355189e+05 4.996842e-01 -34 1.367729e+05 4.996842e-01 -35 1.380384e+05 4.996842e-01 -36 1.393157e+05 4.996842e-01 -37 1.406048e+05 4.996842e-01 -38 1.419058e+05 4.996842e-01 -39 1.432188e+05 4.996841e-01 -40 1.445440e+05 4.996841e-01 -41 1.458814e+05 4.996841e-01 -42 1.472313e+05 4.996841e-01 -43 1.485936e+05 4.996841e-01 -44 1.499685e+05 4.996841e-01 -45 1.513561e+05 4.996841e-01 -46 1.527566e+05 4.996841e-01 -47 1.541700e+05 4.996841e-01 -48 1.555966e+05 4.996841e-01 -49 1.570363e+05 4.996841e-01 -50 1.584893e+05 4.996840e-01 -51 1.599558e+05 4.996840e-01 -52 1.614359e+05 4.996840e-01 -53 1.629296e+05 4.996840e-01 -54 1.644372e+05 4.996840e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.996840e-01 -56 1.674943e+05 4.996840e-01 -57 1.690441e+05 4.996840e-01 -58 1.706082e+05 4.996840e-01 -59 1.721869e+05 4.996839e-01 -60 1.737801e+05 4.996839e-01 -61 1.753881e+05 4.996839e-01 -62 1.770109e+05 4.996839e-01 -63 1.786488e+05 4.996839e-01 -64 1.803018e+05 4.996839e-01 -65 1.819701e+05 4.996839e-01 -66 1.836538e+05 4.996838e-01 -67 1.853532e+05 4.996838e-01 -68 1.870682e+05 4.996838e-01 -69 1.887991e+05 4.996838e-01 -70 1.905461e+05 4.996838e-01 -71 1.923092e+05 4.996838e-01 -72 1.940886e+05 4.996838e-01 -73 1.958845e+05 4.996837e-01 -74 1.976970e+05 4.996837e-01 -75 1.995262e+05 4.996837e-01 -76 2.013724e+05 4.996837e-01 -77 2.032357e+05 4.996837e-01 -78 2.051162e+05 4.996837e-01 -79 2.070141e+05 4.996836e-01 -80 2.089296e+05 4.996836e-01 -81 2.108628e+05 4.996836e-01 -82 2.128139e+05 4.996836e-01 -83 2.147830e+05 4.996836e-01 -84 2.167704e+05 4.996836e-01 -85 2.187762e+05 4.996835e-01 -86 2.208005e+05 4.996835e-01 -87 2.228435e+05 4.996835e-01 -88 2.249055e+05 4.996835e-01 -89 2.269865e+05 4.996835e-01 -90 2.290868e+05 4.996834e-01 -91 2.312065e+05 4.996834e-01 -92 2.333458e+05 4.996834e-01 -93 2.355049e+05 4.996834e-01 -94 2.376840e+05 4.996833e-01 -95 2.398833e+05 4.996833e-01 -96 2.421029e+05 4.996833e-01 -97 2.443431e+05 4.996833e-01 -98 2.466039e+05 4.996832e-01 -99 2.488857e+05 4.996832e-01 -100 2.511886e+05 4.996832e-01 -101 2.535129e+05 4.996832e-01 -102 2.558586e+05 4.996831e-01 -103 2.582260e+05 4.996831e-01 -104 2.606154e+05 4.996831e-01 -105 2.630268e+05 4.996831e-01 -106 2.654606e+05 4.996830e-01 -107 2.679168e+05 4.996830e-01 -108 2.703958e+05 4.996830e-01 -109 2.728978e+05 4.996829e-01 -110 2.754229e+05 4.996829e-01 -111 2.779713e+05 4.996829e-01 -112 2.805434e+05 4.996829e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.996828e-01 -114 2.857591e+05 4.996828e-01 -115 2.884032e+05 4.996828e-01 -116 2.910717e+05 4.996827e-01 -117 2.937650e+05 4.996827e-01 -118 2.964831e+05 4.996826e-01 -119 2.992265e+05 4.996826e-01 -120 3.019952e+05 4.996826e-01 -121 3.047895e+05 4.996825e-01 -122 3.076097e+05 4.996825e-01 -123 3.104560e+05 4.996825e-01 -124 3.133286e+05 4.996824e-01 -125 3.162278e+05 4.996824e-01 -126 3.191538e+05 4.996823e-01 -127 3.221069e+05 4.996823e-01 -128 3.250873e+05 4.996823e-01 -129 3.280953e+05 4.996822e-01 -130 3.311311e+05 4.996822e-01 -131 3.341950e+05 4.996821e-01 -132 3.372873e+05 4.996821e-01 -133 3.404082e+05 4.996820e-01 -134 3.435579e+05 4.996820e-01 -135 3.467369e+05 4.996819e-01 -136 3.499452e+05 4.996819e-01 -137 3.531832e+05 4.996818e-01 -138 3.564511e+05 4.996818e-01 -139 3.597493e+05 4.996817e-01 -140 3.630781e+05 4.996817e-01 -141 3.664376e+05 4.996816e-01 -142 3.698282e+05 4.996816e-01 -143 3.732502e+05 4.996815e-01 -144 3.767038e+05 4.996814e-01 -145 3.801894e+05 4.996814e-01 -146 3.837072e+05 4.996813e-01 -147 3.872576e+05 4.996813e-01 -148 3.908409e+05 4.996812e-01 -149 3.944573e+05 4.996811e-01 -150 3.981072e+05 4.996811e-01 -151 4.017908e+05 4.996810e-01 -152 4.055085e+05 4.996809e-01 -153 4.092607e+05 4.996809e-01 -154 4.130475e+05 4.996808e-01 -155 4.168694e+05 4.996807e-01 -156 4.207266e+05 4.996807e-01 -157 4.246196e+05 4.996806e-01 -158 4.285485e+05 4.996805e-01 -159 4.325138e+05 4.996804e-01 -160 4.365158e+05 4.996804e-01 -161 4.405549e+05 4.996803e-01 -162 4.446313e+05 4.996802e-01 -163 4.487454e+05 4.996801e-01 -164 4.528976e+05 4.996800e-01 -165 4.570882e+05 4.996800e-01 -166 4.613176e+05 4.996799e-01 -167 4.655861e+05 4.996798e-01 -168 4.698941e+05 4.996797e-01 -169 4.742420e+05 4.996796e-01 -170 4.786301e+05 4.996795e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.996794e-01 -172 4.875285e+05 4.996793e-01 -173 4.920395e+05 4.996792e-01 -174 4.965923e+05 4.996791e-01 -175 5.011872e+05 4.996790e-01 -176 5.058247e+05 4.996789e-01 -177 5.105050e+05 4.996788e-01 -178 5.152286e+05 4.996787e-01 -179 5.199960e+05 4.996786e-01 -180 5.248075e+05 4.996785e-01 -181 5.296634e+05 4.996784e-01 -182 5.345644e+05 4.996783e-01 -183 5.395106e+05 4.996781e-01 -184 5.445027e+05 4.996780e-01 -185 5.495409e+05 4.996779e-01 -186 5.546257e+05 4.996778e-01 -187 5.597576e+05 4.996776e-01 -188 5.649370e+05 4.996775e-01 -189 5.701643e+05 4.996774e-01 -190 5.754399e+05 4.996773e-01 -191 5.807644e+05 4.996771e-01 -192 5.861382e+05 4.996770e-01 -193 5.915616e+05 4.996768e-01 -194 5.970353e+05 4.996767e-01 -195 6.025596e+05 4.996765e-01 -196 6.081350e+05 4.996764e-01 -197 6.137620e+05 4.996762e-01 -198 6.194411e+05 4.996761e-01 -199 6.251727e+05 4.996759e-01 -200 6.309573e+05 4.996758e-01 -201 6.367955e+05 4.996756e-01 -202 6.426877e+05 4.996754e-01 -203 6.486344e+05 4.996753e-01 -204 6.546362e+05 4.996751e-01 -205 6.606934e+05 4.996749e-01 -206 6.668068e+05 4.996747e-01 -207 6.729767e+05 4.996746e-01 -208 6.792036e+05 4.996744e-01 -209 6.854882e+05 4.996742e-01 -210 6.918310e+05 4.996740e-01 -211 6.982324e+05 4.996738e-01 -212 7.046931e+05 4.996736e-01 -213 7.112135e+05 4.996734e-01 -214 7.177943e+05 4.996732e-01 -215 7.244360e+05 4.996730e-01 -216 7.311391e+05 4.996727e-01 -217 7.379042e+05 4.996725e-01 -218 7.447320e+05 4.996723e-01 -219 7.516229e+05 4.996721e-01 -220 7.585776e+05 4.996718e-01 -221 7.655966e+05 4.996716e-01 -222 7.726806e+05 4.996714e-01 -223 7.798301e+05 4.996711e-01 -224 7.870458e+05 4.996709e-01 -225 7.943282e+05 4.996706e-01 -226 8.016781e+05 4.996703e-01 -227 8.090959e+05 4.996701e-01 -228 8.165824e+05 4.996698e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.996695e-01 -230 8.317638e+05 4.996693e-01 -231 8.394600e+05 4.996690e-01 -232 8.472274e+05 4.996687e-01 -233 8.550667e+05 4.996684e-01 -234 8.629785e+05 4.996681e-01 -235 8.709636e+05 4.996678e-01 -236 8.790225e+05 4.996675e-01 -237 8.871560e+05 4.996672e-01 -238 8.953648e+05 4.996668e-01 -239 9.036495e+05 4.996665e-01 -240 9.120108e+05 4.996662e-01 -241 9.204496e+05 4.996658e-01 -242 9.289664e+05 4.996655e-01 -243 9.375620e+05 4.996651e-01 -244 9.462372e+05 4.996648e-01 -245 9.549926e+05 4.996644e-01 -246 9.638290e+05 4.996640e-01 -247 9.727472e+05 4.996636e-01 -248 9.817479e+05 4.996632e-01 -249 9.908319e+05 4.996629e-01 -250 1.000000e+06 4.996624e-01 -251 1.009253e+06 4.996620e-01 -252 1.018591e+06 4.996616e-01 -253 1.028016e+06 4.996612e-01 -254 1.037528e+06 4.996608e-01 -255 1.047129e+06 4.996603e-01 -256 1.056818e+06 4.996599e-01 -257 1.066596e+06 4.996594e-01 -258 1.076465e+06 4.996589e-01 -259 1.086426e+06 4.996585e-01 -260 1.096478e+06 4.996580e-01 -261 1.106624e+06 4.996575e-01 -262 1.116863e+06 4.996570e-01 -263 1.127197e+06 4.996565e-01 -264 1.137627e+06 4.996560e-01 -265 1.148154e+06 4.996554e-01 -266 1.158777e+06 4.996549e-01 -267 1.169499e+06 4.996543e-01 -268 1.180321e+06 4.996538e-01 -269 1.191242e+06 4.996532e-01 -270 1.202264e+06 4.996526e-01 -271 1.213389e+06 4.996520e-01 -272 1.224616e+06 4.996514e-01 -273 1.235947e+06 4.996508e-01 -274 1.247384e+06 4.996502e-01 -275 1.258925e+06 4.996495e-01 -276 1.270574e+06 4.996489e-01 -277 1.282331e+06 4.996482e-01 -278 1.294196e+06 4.996476e-01 -279 1.306171e+06 4.996469e-01 -280 1.318257e+06 4.996462e-01 -281 1.330454e+06 4.996455e-01 -282 1.342765e+06 4.996447e-01 -283 1.355189e+06 4.996440e-01 -284 1.367729e+06 4.996433e-01 -285 1.380384e+06 4.996425e-01 -286 1.393157e+06 4.996417e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.996409e-01 -288 1.419058e+06 4.996401e-01 -289 1.432188e+06 4.996393e-01 -290 1.445440e+06 4.996385e-01 -291 1.458814e+06 4.996376e-01 -292 1.472313e+06 4.996367e-01 -293 1.485936e+06 4.996358e-01 -294 1.499685e+06 4.996349e-01 -295 1.513561e+06 4.996340e-01 -296 1.527566e+06 4.996331e-01 -297 1.541700e+06 4.996321e-01 -298 1.555966e+06 4.996312e-01 -299 1.570363e+06 4.996302e-01 -300 1.584893e+06 4.996292e-01 -301 1.599558e+06 4.996282e-01 -302 1.614359e+06 4.996271e-01 -303 1.629296e+06 4.996261e-01 -304 1.644372e+06 4.996250e-01 -305 1.659587e+06 4.996239e-01 -306 1.674943e+06 4.996228e-01 -307 1.690441e+06 4.996216e-01 -308 1.706082e+06 4.996205e-01 -309 1.721869e+06 4.996193e-01 -310 1.737801e+06 4.996181e-01 -311 1.753881e+06 4.996168e-01 -312 1.770109e+06 4.996156e-01 -313 1.786488e+06 4.996143e-01 -314 1.803018e+06 4.996130e-01 -315 1.819701e+06 4.996117e-01 -316 1.836538e+06 4.996104e-01 -317 1.853532e+06 4.996090e-01 -318 1.870682e+06 4.996076e-01 -319 1.887991e+06 4.996062e-01 -320 1.905461e+06 4.996047e-01 -321 1.923092e+06 4.996033e-01 -322 1.940886e+06 4.996018e-01 -323 1.958845e+06 4.996002e-01 -324 1.976970e+06 4.995987e-01 -325 1.995262e+06 4.995971e-01 -326 2.013724e+06 4.995955e-01 -327 2.032357e+06 4.995939e-01 -328 2.051162e+06 4.995922e-01 -329 2.070141e+06 4.995905e-01 -330 2.089296e+06 4.995888e-01 -331 2.108628e+06 4.995870e-01 -332 2.128139e+06 4.995852e-01 -333 2.147830e+06 4.995834e-01 -334 2.167704e+06 4.995815e-01 -335 2.187762e+06 4.995796e-01 -336 2.208005e+06 4.995777e-01 -337 2.228435e+06 4.995758e-01 -338 2.249055e+06 4.995738e-01 -339 2.269865e+06 4.995717e-01 -340 2.290868e+06 4.995697e-01 -341 2.312065e+06 4.995676e-01 -342 2.333458e+06 4.995654e-01 -343 2.355049e+06 4.995632e-01 -344 2.376840e+06 4.995610e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.995587e-01 -346 2.421029e+06 4.995564e-01 -347 2.443431e+06 4.995541e-01 -348 2.466039e+06 4.995517e-01 -349 2.488857e+06 4.995493e-01 -350 2.511886e+06 4.995468e-01 -351 2.535129e+06 4.995443e-01 -352 2.558586e+06 4.995417e-01 -353 2.582260e+06 4.995391e-01 -354 2.606154e+06 4.995365e-01 -355 2.630268e+06 4.995337e-01 -356 2.654606e+06 4.995310e-01 -357 2.679168e+06 4.995282e-01 -358 2.703958e+06 4.995253e-01 -359 2.728978e+06 4.995224e-01 -360 2.754229e+06 4.995195e-01 -361 2.779713e+06 4.995165e-01 -362 2.805434e+06 4.995134e-01 -363 2.831392e+06 4.995103e-01 -364 2.857591e+06 4.995071e-01 -365 2.884032e+06 4.995039e-01 -366 2.910717e+06 4.995006e-01 -367 2.937650e+06 4.994973e-01 -368 2.964831e+06 4.994939e-01 -369 2.992265e+06 4.994904e-01 -370 3.019952e+06 4.994869e-01 -371 3.047895e+06 4.994833e-01 -372 3.076097e+06 4.994796e-01 -373 3.104560e+06 4.994759e-01 -374 3.133286e+06 4.994722e-01 -375 3.162278e+06 4.994683e-01 -376 3.191538e+06 4.994644e-01 -377 3.221069e+06 4.994604e-01 -378 3.250873e+06 4.994564e-01 -379 3.280953e+06 4.994522e-01 -380 3.311311e+06 4.994480e-01 -381 3.341950e+06 4.994438e-01 -382 3.372873e+06 4.994394e-01 -383 3.404082e+06 4.994350e-01 -384 3.435579e+06 4.994305e-01 -385 3.467369e+06 4.994259e-01 -386 3.499452e+06 4.994213e-01 -387 3.531832e+06 4.994165e-01 -388 3.564511e+06 4.994117e-01 -389 3.597493e+06 4.994068e-01 -390 3.630781e+06 4.994018e-01 -391 3.664376e+06 4.993967e-01 -392 3.698282e+06 4.993916e-01 -393 3.732502e+06 4.993863e-01 -394 3.767038e+06 4.993810e-01 -395 3.801894e+06 4.993755e-01 -396 3.837072e+06 4.993700e-01 -397 3.872576e+06 4.993644e-01 -398 3.908409e+06 4.993587e-01 -399 3.944573e+06 4.993528e-01 -400 3.981072e+06 4.993469e-01 -401 4.017908e+06 4.993409e-01 -402 4.055085e+06 4.993348e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.993285e-01 -404 4.130475e+06 4.993222e-01 -405 4.168694e+06 4.993158e-01 -406 4.207266e+06 4.993092e-01 -407 4.246196e+06 4.993026e-01 -408 4.285485e+06 4.992958e-01 -409 4.325138e+06 4.992889e-01 -410 4.365158e+06 4.992819e-01 -411 4.405549e+06 4.992748e-01 -412 4.446313e+06 4.992675e-01 -413 4.487454e+06 4.992602e-01 -414 4.528976e+06 4.992527e-01 -415 4.570882e+06 4.992451e-01 -416 4.613176e+06 4.992373e-01 -417 4.655861e+06 4.992295e-01 -418 4.698941e+06 4.992215e-01 -419 4.742420e+06 4.992133e-01 -420 4.786301e+06 4.992051e-01 -421 4.830588e+06 4.991967e-01 -422 4.875285e+06 4.991881e-01 -423 4.920395e+06 4.991795e-01 -424 4.965923e+06 4.991707e-01 -425 5.011872e+06 4.991617e-01 -426 5.058247e+06 4.991526e-01 -427 5.105050e+06 4.991433e-01 -428 5.152286e+06 4.991339e-01 -429 5.199960e+06 4.991244e-01 -430 5.248075e+06 4.991146e-01 -431 5.296634e+06 4.991048e-01 -432 5.345644e+06 4.990947e-01 -433 5.395106e+06 4.990845e-01 -434 5.445027e+06 4.990742e-01 -435 5.495409e+06 4.990637e-01 -436 5.546257e+06 4.990530e-01 -437 5.597576e+06 4.990421e-01 -438 5.649370e+06 4.990311e-01 -439 5.701643e+06 4.990199e-01 -440 5.754399e+06 4.990085e-01 -441 5.807644e+06 4.989970e-01 -442 5.861382e+06 4.989852e-01 -443 5.915616e+06 4.989733e-01 -444 5.970353e+06 4.989612e-01 -445 6.025596e+06 4.989489e-01 -446 6.081350e+06 4.989365e-01 -447 6.137620e+06 4.989238e-01 -448 6.194411e+06 4.989109e-01 -449 6.251727e+06 4.988979e-01 -450 6.309573e+06 4.988846e-01 -451 6.367955e+06 4.988711e-01 -452 6.426877e+06 4.988575e-01 -453 6.486344e+06 4.988436e-01 -454 6.546362e+06 4.988295e-01 -455 6.606934e+06 4.988152e-01 -456 6.668068e+06 4.988007e-01 -457 6.729767e+06 4.987860e-01 -458 6.792036e+06 4.987711e-01 -459 6.854882e+06 4.987559e-01 -460 6.918310e+06 4.987405e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.987249e-01 -462 7.046931e+06 4.987091e-01 -463 7.112135e+06 4.986931e-01 -464 7.177943e+06 4.986768e-01 -465 7.244360e+06 4.986602e-01 -466 7.311391e+06 4.986435e-01 -467 7.379042e+06 4.986265e-01 -468 7.447320e+06 4.986093e-01 -469 7.516229e+06 4.985918e-01 -470 7.585776e+06 4.985740e-01 -471 7.655966e+06 4.985561e-01 -472 7.726806e+06 4.985378e-01 -473 7.798301e+06 4.985194e-01 -474 7.870458e+06 4.985006e-01 -475 7.943282e+06 4.984817e-01 -476 8.016781e+06 4.984624e-01 -477 8.090959e+06 4.984429e-01 -478 8.165824e+06 4.984231e-01 -479 8.241381e+06 4.984031e-01 -480 8.317638e+06 4.983828e-01 -481 8.394600e+06 4.983622e-01 -482 8.472274e+06 4.983414e-01 -483 8.550667e+06 4.983203e-01 -484 8.629785e+06 4.982989e-01 -485 8.709636e+06 4.982772e-01 -486 8.790225e+06 4.982552e-01 -487 8.871560e+06 4.982330e-01 -488 8.953648e+06 4.982105e-01 -489 9.036495e+06 4.981877e-01 -490 9.120108e+06 4.981646e-01 -491 9.204496e+06 4.981412e-01 -492 9.289664e+06 4.981176e-01 -493 9.375620e+06 4.980936e-01 -494 9.462372e+06 4.980693e-01 -495 9.549926e+06 4.980448e-01 -496 9.638290e+06 4.980199e-01 -497 9.727472e+06 4.979948e-01 -498 9.817479e+06 4.979693e-01 -499 9.908319e+06 4.979436e-01 -500 1.000000e+07 4.979175e-01 -501 1.009253e+07 4.978912e-01 -502 1.018591e+07 4.978645e-01 -503 1.028016e+07 4.978375e-01 -504 1.037528e+07 4.978103e-01 -505 1.047129e+07 4.977827e-01 -506 1.056818e+07 4.977548e-01 -507 1.066596e+07 4.977265e-01 -508 1.076465e+07 4.976980e-01 -509 1.086426e+07 4.976692e-01 -510 1.096478e+07 4.976400e-01 -511 1.106624e+07 4.976105e-01 -512 1.116863e+07 4.975807e-01 -513 1.127197e+07 4.975506e-01 -514 1.137627e+07 4.975202e-01 -515 1.148154e+07 4.974894e-01 -516 1.158777e+07 4.974583e-01 -517 1.169499e+07 4.974269e-01 -518 1.180321e+07 4.973952e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.973631e-01 -520 1.202264e+07 4.973308e-01 -521 1.213389e+07 4.972981e-01 -522 1.224616e+07 4.972650e-01 -523 1.235947e+07 4.972317e-01 -524 1.247384e+07 4.971980e-01 -525 1.258925e+07 4.971640e-01 -526 1.270574e+07 4.971297e-01 -527 1.282331e+07 4.970950e-01 -528 1.294196e+07 4.970600e-01 -529 1.306171e+07 4.970247e-01 -530 1.318257e+07 4.969890e-01 -531 1.330454e+07 4.969531e-01 -532 1.342765e+07 4.969167e-01 -533 1.355189e+07 4.968801e-01 -534 1.367729e+07 4.968431e-01 -535 1.380384e+07 4.968058e-01 -536 1.393157e+07 4.967682e-01 -537 1.406048e+07 4.967303e-01 -538 1.419058e+07 4.966920e-01 -539 1.432188e+07 4.966534e-01 -540 1.445440e+07 4.966144e-01 -541 1.458814e+07 4.965751e-01 -542 1.472313e+07 4.965355e-01 -543 1.485936e+07 4.964956e-01 -544 1.499685e+07 4.964553e-01 -545 1.513561e+07 4.964147e-01 -546 1.527566e+07 4.963738e-01 -547 1.541700e+07 4.963325e-01 -548 1.555966e+07 4.962909e-01 -549 1.570363e+07 4.962490e-01 -550 1.584893e+07 4.962067e-01 -551 1.599558e+07 4.961641e-01 -552 1.614359e+07 4.961212e-01 -553 1.629296e+07 4.960780e-01 -554 1.644372e+07 4.960344e-01 -555 1.659587e+07 4.959905e-01 -556 1.674943e+07 4.959462e-01 -557 1.690441e+07 4.959016e-01 -558 1.706082e+07 4.958567e-01 -559 1.721869e+07 4.958115e-01 -560 1.737801e+07 4.957659e-01 -561 1.753881e+07 4.957200e-01 -562 1.770109e+07 4.956738e-01 -563 1.786488e+07 4.956272e-01 -564 1.803018e+07 4.955803e-01 -565 1.819701e+07 4.955330e-01 -566 1.836538e+07 4.954854e-01 -567 1.853532e+07 4.954375e-01 -568 1.870682e+07 4.953892e-01 -569 1.887991e+07 4.953406e-01 -570 1.905461e+07 4.952917e-01 -571 1.923092e+07 4.952424e-01 -572 1.940886e+07 4.951928e-01 -573 1.958845e+07 4.951428e-01 -574 1.976970e+07 4.950925e-01 -575 1.995262e+07 4.950419e-01 -576 2.013724e+07 4.949909e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.949395e-01 -578 2.051162e+07 4.948878e-01 -579 2.070141e+07 4.948358e-01 -580 2.089296e+07 4.947834e-01 -581 2.108628e+07 4.947306e-01 -582 2.128139e+07 4.946775e-01 -583 2.147830e+07 4.946240e-01 -584 2.167704e+07 4.945702e-01 -585 2.187762e+07 4.945160e-01 -586 2.208005e+07 4.944615e-01 -587 2.228435e+07 4.944066e-01 -588 2.249055e+07 4.943513e-01 -589 2.269865e+07 4.942956e-01 -590 2.290868e+07 4.942396e-01 -591 2.312065e+07 4.941832e-01 -592 2.333458e+07 4.941264e-01 -593 2.355049e+07 4.940693e-01 -594 2.376840e+07 4.940117e-01 -595 2.398833e+07 4.939538e-01 -596 2.421029e+07 4.938955e-01 -597 2.443431e+07 4.938368e-01 -598 2.466039e+07 4.937777e-01 -599 2.488857e+07 4.937182e-01 -600 2.511886e+07 4.936583e-01 -601 2.535129e+07 4.935980e-01 -602 2.558586e+07 4.935373e-01 -603 2.582260e+07 4.934762e-01 -604 2.606154e+07 4.934147e-01 -605 2.630268e+07 4.933527e-01 -606 2.654606e+07 4.932904e-01 -607 2.679168e+07 4.932276e-01 -608 2.703958e+07 4.931644e-01 -609 2.728978e+07 4.931008e-01 -610 2.754229e+07 4.930368e-01 -611 2.779713e+07 4.929723e-01 -612 2.805434e+07 4.929074e-01 -613 2.831392e+07 4.928420e-01 -614 2.857591e+07 4.927762e-01 -615 2.884032e+07 4.927100e-01 -616 2.910717e+07 4.926433e-01 -617 2.937650e+07 4.925762e-01 -618 2.964831e+07 4.925086e-01 -619 2.992265e+07 4.924405e-01 -620 3.019952e+07 4.923720e-01 -621 3.047895e+07 4.923031e-01 -622 3.076097e+07 4.922337e-01 -623 3.104560e+07 4.921638e-01 -624 3.133286e+07 4.920934e-01 -625 3.162278e+07 4.920226e-01 -626 3.191538e+07 4.919513e-01 -627 3.221069e+07 4.918796e-01 -628 3.250873e+07 4.918074e-01 -629 3.280953e+07 4.917347e-01 -630 3.311311e+07 4.916615e-01 -631 3.341950e+07 4.915879e-01 -632 3.372873e+07 4.915138e-01 -633 3.404082e+07 4.914392e-01 -634 3.435579e+07 4.913641e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.912886e-01 -636 3.499452e+07 4.912126e-01 -637 3.531832e+07 4.911362e-01 -638 3.564511e+07 4.910592e-01 -639 3.597493e+07 4.909818e-01 -640 3.630781e+07 4.909040e-01 -641 3.664376e+07 4.908257e-01 -642 3.698282e+07 4.907469e-01 -643 3.732502e+07 4.906677e-01 -644 3.767038e+07 4.905880e-01 -645 3.801894e+07 4.905079e-01 -646 3.837072e+07 4.904274e-01 -647 3.872576e+07 4.903464e-01 -648 3.908409e+07 4.902650e-01 -649 3.944573e+07 4.901832e-01 -650 3.981072e+07 4.901010e-01 -651 4.017908e+07 4.900184e-01 -652 4.055085e+07 4.899354e-01 -653 4.092607e+07 4.898520e-01 -654 4.130475e+07 4.897683e-01 -655 4.168694e+07 4.896842e-01 -656 4.207266e+07 4.895998e-01 -657 4.246196e+07 4.895150e-01 -658 4.285485e+07 4.894299e-01 -659 4.325138e+07 4.893445e-01 -660 4.365158e+07 4.892588e-01 -661 4.405549e+07 4.891729e-01 -662 4.446313e+07 4.890867e-01 -663 4.487454e+07 4.890003e-01 -664 4.528976e+07 4.889136e-01 -665 4.570882e+07 4.888268e-01 -666 4.613176e+07 4.887398e-01 -667 4.655861e+07 4.886526e-01 -668 4.698941e+07 4.885653e-01 -669 4.742420e+07 4.884779e-01 -670 4.786301e+07 4.883905e-01 -671 4.830588e+07 4.883030e-01 -672 4.875285e+07 4.882154e-01 -673 4.920395e+07 4.881279e-01 -674 4.965923e+07 4.880404e-01 -675 5.011872e+07 4.879530e-01 -676 5.058247e+07 4.878657e-01 -677 5.105050e+07 4.877786e-01 -678 5.152286e+07 4.876916e-01 -679 5.199960e+07 4.876048e-01 -680 5.248075e+07 4.875183e-01 -681 5.296634e+07 4.874320e-01 -682 5.345644e+07 4.873461e-01 -683 5.395106e+07 4.872606e-01 -684 5.445027e+07 4.871755e-01 -685 5.495409e+07 4.870909e-01 -686 5.546257e+07 4.870067e-01 -687 5.597576e+07 4.869232e-01 -688 5.649370e+07 4.868402e-01 -689 5.701643e+07 4.867579e-01 -690 5.754399e+07 4.866763e-01 -691 5.807644e+07 4.865955e-01 -692 5.861382e+07 4.865155e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.864364e-01 -694 5.970353e+07 4.863582e-01 -695 6.025596e+07 4.862810e-01 -696 6.081350e+07 4.862049e-01 -697 6.137620e+07 4.861299e-01 -698 6.194411e+07 4.860561e-01 -699 6.251727e+07 4.859835e-01 -700 6.309573e+07 4.859123e-01 -701 6.367955e+07 4.858424e-01 -702 6.426877e+07 4.857740e-01 -703 6.486344e+07 4.857071e-01 -704 6.546362e+07 4.856419e-01 -705 6.606934e+07 4.855783e-01 -706 6.668068e+07 4.855164e-01 -707 6.729767e+07 4.854563e-01 -708 6.792036e+07 4.853982e-01 -709 6.854882e+07 4.853420e-01 -710 6.918310e+07 4.852878e-01 -711 6.982324e+07 4.852358e-01 -712 7.046931e+07 4.851860e-01 -713 7.112135e+07 4.851384e-01 -714 7.177943e+07 4.850932e-01 -715 7.244360e+07 4.850505e-01 -716 7.311391e+07 4.850102e-01 -717 7.379042e+07 4.849726e-01 -718 7.447320e+07 4.849376e-01 -719 7.516229e+07 4.849053e-01 -720 7.585776e+07 4.848758e-01 -721 7.655966e+07 4.848493e-01 -722 7.726806e+07 4.848257e-01 -723 7.798301e+07 4.848051e-01 -724 7.870458e+07 4.847877e-01 -725 7.943282e+07 4.847734e-01 -726 8.016781e+07 4.847624e-01 -727 8.090959e+07 4.847547e-01 -728 8.165824e+07 4.847504e-01 -729 8.241381e+07 4.847495e-01 -730 8.317638e+07 4.847520e-01 -731 8.394600e+07 4.847582e-01 -732 8.472274e+07 4.847679e-01 -733 8.550667e+07 4.847812e-01 -734 8.629785e+07 4.847982e-01 -735 8.709636e+07 4.848189e-01 -736 8.790225e+07 4.848433e-01 -737 8.871560e+07 4.848715e-01 -738 8.953648e+07 4.849035e-01 -739 9.036495e+07 4.849393e-01 -740 9.120108e+07 4.849788e-01 -741 9.204496e+07 4.850221e-01 -742 9.289664e+07 4.850692e-01 -743 9.375620e+07 4.851201e-01 -744 9.462372e+07 4.851746e-01 -745 9.549926e+07 4.852329e-01 -746 9.638290e+07 4.852948e-01 -747 9.727472e+07 4.853602e-01 -748 9.817479e+07 4.854292e-01 -749 9.908319e+07 4.855016e-01 -750 1.000000e+08 4.855773e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.856563e-01 -752 1.018591e+08 4.857384e-01 -753 1.028016e+08 4.858234e-01 -754 1.037528e+08 4.859113e-01 -755 1.047129e+08 4.860018e-01 -756 1.056818e+08 4.860949e-01 -757 1.066596e+08 4.861902e-01 -758 1.076465e+08 4.862877e-01 -759 1.086426e+08 4.863871e-01 -760 1.096478e+08 4.864880e-01 -761 1.106624e+08 4.865904e-01 -762 1.116863e+08 4.866939e-01 -763 1.127197e+08 4.867983e-01 -764 1.137627e+08 4.869031e-01 -765 1.148154e+08 4.870082e-01 -766 1.158777e+08 4.871131e-01 -767 1.169499e+08 4.872175e-01 -768 1.180321e+08 4.873211e-01 -769 1.191242e+08 4.874234e-01 -770 1.202264e+08 4.875240e-01 -771 1.213389e+08 4.876226e-01 -772 1.224616e+08 4.877186e-01 -773 1.235947e+08 4.878116e-01 -774 1.247384e+08 4.879012e-01 -775 1.258925e+08 4.879869e-01 -776 1.270574e+08 4.880681e-01 -777 1.282331e+08 4.881443e-01 -778 1.294196e+08 4.882152e-01 -779 1.306171e+08 4.882800e-01 -780 1.318257e+08 4.883384e-01 -781 1.330454e+08 4.883897e-01 -782 1.342765e+08 4.884334e-01 -783 1.355189e+08 4.884690e-01 -784 1.367729e+08 4.884960e-01 -785 1.380384e+08 4.885138e-01 -786 1.393157e+08 4.885219e-01 -787 1.406048e+08 4.885198e-01 -788 1.419058e+08 4.885070e-01 -789 1.432188e+08 4.884830e-01 -790 1.445440e+08 4.884473e-01 -791 1.458814e+08 4.883995e-01 -792 1.472313e+08 4.883393e-01 -793 1.485936e+08 4.882661e-01 -794 1.499685e+08 4.881796e-01 -795 1.513561e+08 4.880796e-01 -796 1.527566e+08 4.879658e-01 -797 1.541700e+08 4.878379e-01 -798 1.555966e+08 4.876958e-01 -799 1.570363e+08 4.875393e-01 -800 1.584893e+08 4.873685e-01 -801 1.599558e+08 4.871832e-01 -802 1.614359e+08 4.869835e-01 -803 1.629296e+08 4.867697e-01 -804 1.644372e+08 4.865418e-01 -805 1.659587e+08 4.863002e-01 -806 1.674943e+08 4.860452e-01 -807 1.690441e+08 4.857772e-01 -808 1.706082e+08 4.854967e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.852045e-01 -810 1.737801e+08 4.849010e-01 -811 1.753881e+08 4.845871e-01 -812 1.770109e+08 4.842636e-01 -813 1.786488e+08 4.839314e-01 -814 1.803018e+08 4.835916e-01 -815 1.819701e+08 4.832452e-01 -816 1.836538e+08 4.828933e-01 -817 1.853532e+08 4.825373e-01 -818 1.870682e+08 4.821785e-01 -819 1.887991e+08 4.818181e-01 -820 1.905461e+08 4.814576e-01 -821 1.923092e+08 4.810986e-01 -822 1.940886e+08 4.807425e-01 -823 1.958845e+08 4.803910e-01 -824 1.976970e+08 4.800456e-01 -825 1.995262e+08 4.797079e-01 -826 2.013724e+08 4.793797e-01 -827 2.032357e+08 4.790625e-01 -828 2.051162e+08 4.787581e-01 -829 2.070141e+08 4.784680e-01 -830 2.089296e+08 4.781938e-01 -831 2.108628e+08 4.779370e-01 -832 2.128139e+08 4.776993e-01 -833 2.147830e+08 4.774819e-01 -834 2.167704e+08 4.772863e-01 -835 2.187762e+08 4.771136e-01 -836 2.208005e+08 4.769650e-01 -837 2.228435e+08 4.768414e-01 -838 2.249055e+08 4.767438e-01 -839 2.269865e+08 4.766728e-01 -840 2.290868e+08 4.766288e-01 -841 2.312065e+08 4.766122e-01 -842 2.333458e+08 4.766231e-01 -843 2.355049e+08 4.766614e-01 -844 2.376840e+08 4.767266e-01 -845 2.398833e+08 4.768181e-01 -846 2.421029e+08 4.769350e-01 -847 2.443431e+08 4.770763e-01 -848 2.466039e+08 4.772403e-01 -849 2.488857e+08 4.774254e-01 -850 2.511886e+08 4.776295e-01 -851 2.535129e+08 4.778503e-01 -852 2.558586e+08 4.780851e-01 -853 2.582260e+08 4.783311e-01 -854 2.606154e+08 4.785851e-01 -855 2.630268e+08 4.788437e-01 -856 2.654606e+08 4.791031e-01 -857 2.679168e+08 4.793595e-01 -858 2.703958e+08 4.796090e-01 -859 2.728978e+08 4.798473e-01 -860 2.754229e+08 4.800703e-01 -861 2.779713e+08 4.802736e-01 -862 2.805434e+08 4.804530e-01 -863 2.831392e+08 4.806045e-01 -864 2.857591e+08 4.807240e-01 -865 2.884032e+08 4.808079e-01 -866 2.910717e+08 4.808527e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.808554e-01 -868 2.964831e+08 4.808135e-01 -869 2.992265e+08 4.807251e-01 -870 3.019952e+08 4.805885e-01 -871 3.047895e+08 4.804032e-01 -872 3.076097e+08 4.801692e-01 -873 3.104560e+08 4.798871e-01 -874 3.133286e+08 4.795585e-01 -875 3.162278e+08 4.791858e-01 -876 3.191538e+08 4.787722e-01 -877 3.221069e+08 4.783216e-01 -878 3.250873e+08 4.778387e-01 -879 3.280953e+08 4.773292e-01 -880 3.311311e+08 4.767990e-01 -881 3.341950e+08 4.762549e-01 -882 3.372873e+08 4.757043e-01 -883 3.404082e+08 4.751545e-01 -884 3.435579e+08 4.746137e-01 -885 3.467369e+08 4.740897e-01 -886 3.499452e+08 4.735907e-01 -887 3.531832e+08 4.731244e-01 -888 3.564511e+08 4.726986e-01 -889 3.597493e+08 4.723203e-01 -890 3.630781e+08 4.719961e-01 -891 3.664376e+08 4.717319e-01 -892 3.698282e+08 4.715324e-01 -893 3.732502e+08 4.714016e-01 -894 3.767038e+08 4.713421e-01 -895 3.801894e+08 4.713552e-01 -896 3.837072e+08 4.714408e-01 -897 3.872576e+08 4.715972e-01 -898 3.908409e+08 4.718213e-01 -899 3.944573e+08 4.721080e-01 -900 3.981072e+08 4.724508e-01 -901 4.017908e+08 4.728414e-01 -902 4.055085e+08 4.732699e-01 -903 4.092607e+08 4.737251e-01 -904 4.130475e+08 4.741941e-01 -905 4.168694e+08 4.746634e-01 -906 4.207266e+08 4.751185e-01 -907 4.246196e+08 4.755444e-01 -908 4.285485e+08 4.759265e-01 -909 4.325138e+08 4.762502e-01 -910 4.365158e+08 4.765022e-01 -911 4.405549e+08 4.766708e-01 -912 4.446313e+08 4.767460e-01 -913 4.487454e+08 4.767205e-01 -914 4.528976e+08 4.765901e-01 -915 4.570882e+08 4.763538e-01 -916 4.613176e+08 4.760140e-01 -917 4.655861e+08 4.755770e-01 -918 4.698941e+08 4.750525e-01 -919 4.742420e+08 4.744538e-01 -920 4.786301e+08 4.737973e-01 -921 4.830588e+08 4.731020e-01 -922 4.875285e+08 4.723889e-01 -923 4.920395e+08 4.716804e-01 -924 4.965923e+08 4.709996e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.703694e-01 -926 5.058247e+08 4.698115e-01 -927 5.105050e+08 4.693458e-01 -928 5.152286e+08 4.689897e-01 -929 5.199960e+08 4.687570e-01 -930 5.248075e+08 4.686575e-01 -931 5.296634e+08 4.686960e-01 -932 5.345644e+08 4.688723e-01 -933 5.395106e+08 4.691807e-01 -934 5.445027e+08 4.696095e-01 -935 5.495409e+08 4.701413e-01 -936 5.546257e+08 4.707531e-01 -937 5.597576e+08 4.714171e-01 -938 5.649370e+08 4.721013e-01 -939 5.701643e+08 4.727708e-01 -940 5.754399e+08 4.733894e-01 -941 5.807644e+08 4.739214e-01 -942 5.861382e+08 4.743337e-01 -943 5.915616e+08 4.745979e-01 -944 5.970353e+08 4.746924e-01 -945 6.025596e+08 4.746041e-01 -946 6.081350e+08 4.743303e-01 -947 6.137620e+08 4.738788e-01 -948 6.194411e+08 4.732686e-01 -949 6.251727e+08 4.725288e-01 -950 6.309573e+08 4.716976e-01 -951 6.367955e+08 4.708197e-01 -952 6.426877e+08 4.699443e-01 -953 6.486344e+08 4.691218e-01 -954 6.546362e+08 4.684012e-01 -955 6.606934e+08 4.678264e-01 -956 6.668068e+08 4.674342e-01 -957 6.729767e+08 4.672511e-01 -958 6.792036e+08 4.672916e-01 -959 6.854882e+08 4.675564e-01 -960 6.918310e+08 4.680310e-01 -961 6.982324e+08 4.686863e-01 -962 7.046931e+08 4.694786e-01 -963 7.112135e+08 4.703514e-01 -964 7.177943e+08 4.712387e-01 -965 7.244360e+08 4.720694e-01 -966 7.311391e+08 4.727721e-01 -967 7.379042e+08 4.732821e-01 -968 7.447320e+08 4.735473e-01 -969 7.516229e+08 4.735346e-01 -970 7.585776e+08 4.732341e-01 -971 7.655966e+08 4.726620e-01 -972 7.726806e+08 4.718600e-01 -973 7.798301e+08 4.708926e-01 -974 7.870458e+08 4.698416e-01 -975 7.943282e+08 4.687989e-01 -976 8.016781e+08 4.678580e-01 -977 8.090959e+08 4.671057e-01 -978 8.165824e+08 4.666139e-01 -979 8.241381e+08 4.664326e-01 -980 8.317638e+08 4.665843e-01 -981 8.394600e+08 4.670603e-01 -982 8.472274e+08 4.678192e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.687882e-01 -984 8.629785e+08 4.698672e-01 -985 8.709636e+08 4.709374e-01 -986 8.790225e+08 4.718733e-01 -987 8.871560e+08 4.725569e-01 -988 8.953648e+08 4.728942e-01 -989 9.036495e+08 4.728298e-01 -990 9.120108e+08 4.723575e-01 -991 9.204496e+08 4.715244e-01 -992 9.289664e+08 4.704263e-01 -993 9.375620e+08 4.691969e-01 -994 9.462372e+08 4.679904e-01 -995 9.549926e+08 4.669616e-01 -996 9.638290e+08 4.662460e-01 -997 9.727472e+08 4.659424e-01 -998 9.817479e+08 4.660987e-01 -999 9.908319e+08 4.667032e-01 -1000 1.000000e+09 4.676816e-01 - -CPU time since last call: 0.038 seconds. - -Total CPU time: 0.038 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4789.664062 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 770.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec deleted file mode 100644 index 8512e16..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901002_V32 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec deleted file mode 100644 index ceea369..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/TP_AWG_24_ESCC_3901002_V32_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901002_V32_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/analytic_solution.dat_reference deleted file mode 100644 index 8b7a2a8..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49915378374284874 -2.7189599503007686E-003 - 100926.21909870484 0.49915337772806084 -2.7440278683280440E-003 - 101861.01701559752 0.49915296448244478 -2.7693248305425055E-003 - 102804.47320933097 0.49915254388319857 -2.7948528750381054E-003 - 103756.66787451849 0.49915211580565277 -2.8206140566600997E-003 - 104717.68194855202 0.49915168012325006 -2.8466104471110217E-003 - 105687.59711848051 0.49915123670752276 -2.8728441350545910E-003 - 106666.49582795388 0.49915078542807512 -2.8993172262204128E-003 - 107654.46128423158 0.49915032615256177 -2.9260318435098439E-003 - 108651.57746525372 0.49914985874666840 -2.9529901271001619E-003 - 109657.92912678099 0.49914938307409135 -2.9801942345491135E-003 - 110673.60180959746 0.49914889899651754 -3.0076463408997200E-003 - 111698.68184678226 0.49914840637360736 -3.0353486387848299E-003 - 112733.25637104872 0.49914790506297158 -3.0633033385312450E-003 - 113777.41332214902 0.49914739492015558 -3.0915126682649003E-003 - 114831.24145435111 0.49914687579862016 -3.1199788740134370E-003 - 115894.83034398119 0.49914634754971987 -3.1487042198117274E-003 - 116968.27039703846 0.49914581002268887 -3.1776909878051701E-003 - 118051.65285688055 0.49914526306462115 -3.2069414783532295E-003 - 119145.06981197748 0.49914470652045223 -3.2364580101337356E-003 - 120248.61420374122 0.49914414023294373 -3.2662429202451010E-003 - 121362.37983442418 0.49914356404266469 -3.2962985643111543E-003 - 122486.46137509307 0.49914297778797595 -3.3266273165830054E-003 - 123620.95437367691 0.49914238130501509 -3.3572315700425653E-003 - 124765.95526308684 0.49914177442767949 -3.3881137365050656E-003 - 125921.56136941510 0.49914115698761191 -3.4192762467219516E-003 - 127087.87092020595 0.49914052881418608 -3.4507215504832041E-003 - 128264.98305280598 0.49913988973449269 -3.4824521167191049E-003 - 129452.99782279160 0.49913923957332584 -3.5144704336032683E-003 - 130652.01621247199 0.49913857815317109 -3.5467790086535470E-003 - 131862.14013947485 0.49913790529419200 -3.5793803688348898E-003 - 133083.47246540760 0.49913722081422052 -3.6122770606595578E-003 - 134316.11700460155 0.49913652452874485 -3.6454716502898558E-003 - 135560.17853293690 0.49913581625090014 -3.6789667236390095E-003 - 136815.76279674706 0.49913509579145998 -3.7127648864723707E-003 - 138082.97652180924 0.49913436295882702 -3.7468687645081217E-003 - 139361.92742241436 0.49913361755902647 -3.7812810035192470E-003 - 140652.72421052365 0.49913285939569851 -3.8160042694333923E-003 - 141955.47660501016 0.49913208827009503 -3.8510412484346456E-003 - 143270.29534098294 0.49913130398107197 -3.8863946470640695E-003 - 144597.29217920196 0.49913050632508876 -3.9220671923201290E-003 - 145936.57991557577 0.49912969509620408 -3.9580616317604822E-003 - 147288.27239075018 0.49912887008607487 -3.9943807336019184E-003 - 148652.48449978570 0.49912803108395692 -4.0310272868219815E-003 - 150029.33220192167 0.49912717787670535 -4.0680041012605122E-003 - 151418.93253043521 0.49912631024877702 -4.1053140077196813E-003 - 152821.40360258709 0.49912542798223419 -4.1429598580668267E-003 - 154236.86462966274 0.49912453085674996 -4.1809445253353887E-003 - 155665.43592710621 0.49912361864961369 -4.2192709038269896E-003 - 157107.23892474489 0.49912269113573948 -4.2579419092144410E-003 - 158562.39617711373 0.49912174808767662 -4.2969604786440461E-003 - 160031.03137387018 0.49912078927561793 -4.3363295708386202E-003 - 161513.26935030895 0.49911981446741444 -4.3760521662019897E-003 - 163009.23609797412 0.49911882342858921 -4.4161312669228157E-003 - 164519.05877536608 0.49911781592235227 -4.4565698970799655E-003 - 166042.86571875296 0.49911679170961926 -4.4973711027480566E-003 - 167580.78645307687 0.49911575054903051 -4.5385379521041104E-003 - 169132.95170296470 0.49911469219697180 -4.5800735355352043E-003 - 170699.49340384078 0.49911361640759871 -4.6219809657469559E-003 - 172280.54471313921 0.49911252293286162 -4.6642633778728676E-003 - 173876.24002162504 0.49911141152253224 -4.7069239295854702E-003 - 175486.71496481521 0.49911028192423335 -4.7499658012083359E-003 - 177112.10643450869 0.49910913388347083 -4.7933921958293480E-003 - 178752.55259042355 0.49910796714366673 -4.8372063394159703E-003 - 180408.19287193808 0.49910678144619508 -4.8814114809315173E-003 - 182079.16800994624 0.49910557653042104 -4.9260108924543819E-003 - 183765.62003881723 0.49910435213374071 -4.9710078692972726E-003 - 185467.69230846976 0.49910310799162472 -5.0164057301305392E-003 - 187185.52949655792 0.49910184383766293 -5.0622078171062099E-003 - 188919.27762076643 0.49910055940361348 -5.1084174959849307E-003 - 190669.08405122519 0.49909925441945296 -5.1550381562654752E-003 - 192435.09752303324 0.49909792861342944 -5.2020732113168995E-003 - 194217.46814890244 0.49909658171211868 -5.2495260985128507E-003 - 196016.34743191858 0.49909521344048297 -5.2974002793705448E-003 - 197831.88827841621 0.49909382352193155 -5.3456992396905831E-003 - 199664.24501097933 0.49909241167838608 -5.3944264897021052E-003 - 201513.57338155585 0.49909097763034738 -5.4435855642109756E-003 - 203380.03058469799 0.49908952109696497 -5.4931800227510097E-003 - 205263.77527092522 0.49908804179611027 -5.5432134497404419E-003 - 207164.96756020669 0.49908653944445308 -5.5936894546413400E-003 - 209083.76905557499 0.49908501375753994 -5.6446116721247091E-003 - 211020.34285685964 0.49908346444987595 -5.6959837622390739E-003 - 212974.85357455187 0.49908189123501084 -5.7478094105850785E-003 - 214947.46734379805 0.49908029382562624 -5.8000923284942506E-003 - 216938.35183851823 0.49907867193362809 -5.8528362532138042E-003 - 218947.67628566208 0.49907702527024006 -5.9060449480972804E-003 - 220975.61147959033 0.49907535354610205 -5.9597222028003240E-003 - 223022.32979659364 0.49907365647137125 -6.0138718334836047E-003 - 225088.00520954619 0.49907193375582609 -6.0684976830217997E-003 - 227172.81330269075 0.49907018510897316 -6.1236036212188351E-003 - 229276.93128656488 0.49906841024015919 -6.1791935450316469E-003 - 231400.53801306541 0.49906660885868298 -6.2352713787996580E-003 - 233543.81399064770 0.49906478067391491 -6.2918410744836175E-003 - 235706.94139967277 0.49906292539541525 -6.3489066119107760E-003 - 237890.10410788958 0.49906104273305868 -6.4064719990296632E-003 - 240093.48768606517 0.49905913239716099 -6.4645412721732595E-003 - 242317.27942376008 0.49905719409860799 -6.5231184963305804E-003 - 244561.66834524440 0.49905522754898995 -6.5822077654280166E-003 - 246826.84522556924 0.49905323246073702 -6.6418132026208835E-003 - 249113.00260677910 0.49905120854725804 -6.7019389605937462E-003 - 251420.33481427966 0.49904915552308354 -6.7625892218722517E-003 - 253749.03797335716 0.49904707310400875 -6.8237681991447910E-003 - 256099.31002584568 0.49904496100724471 -6.8854801355960546E-003 - 258471.35074695636 0.49904281895156688 -6.9477293052514948E-003 - 260865.36176225505 0.49904064665746828 -7.0105200133333727E-003 - 263281.54656480200 0.49903844384731716 -7.0738565966296839E-003 - 265720.11053245066 0.49903621024551392 -7.1377434238746179E-003 - 268181.26094530127 0.49903394557865410 -7.2021848961430438E-003 - 270665.20700332412 0.49903164957568985 -7.2671854472572467E-003 - 273172.15984413790 0.49902932196809674 -7.3327495442071684E-003 - 275702.33256095828 0.49902696249004147 -7.3988816875862418E-003 - 278255.94022071257 0.49902457087855084 -7.4655864120387319E-003 - 280833.19988231699 0.49902214687368346 -7.5328682867244340E-003 - 283434.33061513095 0.49901969021870335 -7.6007319157967487E-003 - 286059.55351757450 0.49901720066025401 -7.6691819388967622E-003 - 288709.09173592349 0.49901467794853432 -7.7382230316623514E-003 - 291383.17048327887 0.49901212183747629 -7.8078599062542751E-003 - 294082.01705870609 0.49900953208492205 -7.8780973118977270E-003 - 296805.86086656025 0.49900690845280316 -7.9489400354407058E-003 - 299554.93343598163 0.49900425070732080 -8.0203929019300631E-003 - 302329.46844057762 0.49900155861912326 -8.0924607752032637E-003 - 305129.70171828708 0.49899883196348815 -8.1651485584993237E-003 - 307955.87129142234 0.49899607052050043 -8.2384611950863905E-003 - 310808.21738690638 0.49899327407523175 -8.3124036689075712E-003 - 313686.98245668795 0.49899044241792079 -8.3869810052456858E-003 - 316592.41119835206 0.49898757534414834 -8.4621982714053173E-003 - 319524.75057592138 0.49898467265501595 -8.5380605774148383E-003 - 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0.48227858901017423 0.16959798151528621 - 293404970.92157930 0.48268212468164545 0.10897739427004323 - 296122543.79880315 0.48285604960295780 4.7706747240601859E-002 - 298865287.35503829 0.48278991740967880 -1.4160753058994930E-002 - 301633434.72591972 0.48247726421763809 -7.6568066000120324E-002 - 304427221.20643061 0.48191599208622032 -0.13945538887048017 - 307246884.27090096 0.48110863532134124 -0.20276137168085331 - 310092663.59319234 0.48006249237559029 -0.26642443850007586 - 312964801.06707507 0.47878961353134680 -0.33038417248106700 - 315863540.82678193 0.47730664300089010 -0.39458271789499577 - 318789129.26776493 0.47563452272060769 -0.45896615179424449 - 321741815.06763780 0.47379807308746563 -0.52348578043689620 - 324721849.20731252 0.47182547240131845 -0.58809932104082552 - 327729484.99233818 0.46974766124629269 -0.65277193719437487 - 330764978.07442427 0.46759770014529928 -0.71747710551597477 - 333828586.47317642 0.46541010852230530 -0.78219730100742557 - 336920570.59802741 0.46322021054356460 -0.84692449807622583 - 340041193.27037024 0.46106350922128581 -0.91166049262859605 - 343190719.74590427 0.45897510480927273 -0.97641705736076934 - 346369417.73717344 0.45698916758706815 -1.0412159470313658 - 349577557.43632787 0.45513846915747813 -1.1060887729368085 - 352815411.53808904 0.45345397081384903 -1.1710767660713630 - 356083255.26292741 0.45196446268579099 -1.2362304467186134 - 359381366.38046259 0.45069624344025039 -1.3016092147562035 - 362710025.23306483 0.44967282739191156 -1.3672808700648482 - 366069514.75969058 0.44891466398770408 -1.4333210664230953 - 369460120.51993102 0.44843885377187065 -1.4998126954254924 - 372882130.71828300 0.44825884511984893 -1.5668451895586648 - 376335836.22865325 0.44838409730953788 -1.6345137258803282 - 379821530.61907363 0.44881969801327948 -1.7029183040881914 - 383339510.17666054 0.44956592727418054 -1.7721626655591824 - 386890073.93279833 0.45061776580298629 -1.8423530137682793 - 390473523.68855560 0.45196435339477964 -1.9135964922017386 - 394090164.04034477 0.45358841382654569 -1.9859993746224709 - 397740302.40580368 0.45546567606289046 -2.0596649258672914 - 401424249.04993260 0.45756433799183199 -2.1346909011741468 - 405142317.11146557 0.45984463772362738 -2.2111666705276423 - 408894822.62948561 0.46225861734784418 -2.2891699838431223 - 412682084.57029516 0.46475018240576477 -2.3687634346273980 - 416504424.85451853 0.46725557321695588 -2.4499907344094365 - 420362168.38447183 0.46970436621696021 -2.5328729757775035 - 424255643.07177860 0.47202110835205124 -2.6174051329472050 - 428185179.86524069 0.47412764942853791 -2.7035531158854793 - 432151112.77897620 0.47594617260491012 -2.7912517433801303 - 436153778.92080057 0.47740283336476097 -2.8804040155084634 - 440193518.52088791 0.47843181102034682 -2.9708820305505181 - 444270674.96068919 0.47897947098146676 -3.0625297946035488 - 448385594.80211818 0.47900825402382236 3.1280172933461814 - 452538627.81701666 0.47849987525911225 3.0345845530477624 - 456730127.01687467 0.47745744873926321 2.9405616763432674 - 460960448.68284386 0.47590625782395557 2.8461523148672225 - 465229952.39601988 0.47389305240895097 2.7515498808516310 - 469539001.06800532 0.47148394110382358 2.6569284303560448 - 473887960.97176510 0.46876112038171974 2.5624345872245691 - 478277201.77274853 0.46581880789760610 2.4681810094501184 - 482707096.56031883 0.46275880170818184 2.3742416953626577 - 487178021.87946409 0.45968606803998402 2.2806492100529709 - 491690357.76280212 0.45670468170587719 2.1873937218748227 - 496244487.76289135 0.45391432972961077 2.0944236021926308 - 500840798.98482126 0.45140746650398339 2.0016472707849888 - 505479682.11912459 0.44926709924013469 1.9089359624248816 - 510161531.47498441 0.44756509865457239 1.8161271355638342 - 514886745.01374871 0.44636087670150937 1.7230283259920920 - 519655724.38276571 0.44570024978303424 1.6294213512017006 - 524468874.94951189 0.44561430870646085 1.5350668817482631 - 529326605.83605665 0.44611814240536907 1.4397095036765675 - 534229329.95383632 0.44720931003718262 1.3430834918086210 - 539177464.03874946 0.44886602749857585 1.2449195869100582 - 544171428.68658876 0.45104513409568453 1.1449531058138622 - 549211648.38877892 0.45368003760954073 1.0429336911649691 - 554298551.56846750 0.45667900133537143 0.93863689778891690 - 559432570.61693895 0.45992432314949266 0.83187758268985934 - 564614141.93036616 0.46327313182102259 0.72252468762525601 - 569843705.94691360 0.46656062889335853 0.61051647339435433 - 575121707.18416142 0.46960654748366754 0.49587463041144814 - 580448594.27689838 0.47222528660108570 0.37871507499722989 - 585824820.01525474 0.47423955337101570 0.25925285413509158 - 591250841.38318694 0.47549645108323335 0.13779868032367787 - 596727119.59733105 0.47588398828696177 1.4745410786053259E-002 - 602254120.14619279 0.47534529386506041 -0.10945570659726966 - 607832312.82972360 0.47388776710784353 -0.23432724597156818 - 613462171.79925191 0.47158515775521453 -0.35940264784000808 - 619144175.59778345 0.46857201312077157 -0.48426334068279930 - 624878807.20068884 0.46503157971386194 -0.60857119847719132 - 630666554.05674052 0.46117952592163775 -0.73209273600289637 - 636507908.12955773 0.45724635698601568 -0.85471328584516781 - 642403365.93942034 0.45346107082638226 -0.97644130998496281 - 648353428.60547137 0.45003771515225216 -1.0974044317562306 - 654358601.88832295 0.44716544450710233 -1.2178394629507043 - 660419396.23303056 0.44500176966279331 -1.3380786681578867 - 666536326.81249201 0.44366811144097457 -1.4585339582805121 - 672709913.57123506 0.44324653845013012 -1.5796798901297888 - 678940681.26960981 0.44377662521582234 -1.7020354816717802 - 685229159.52840579 0.44525164680662388 -1.8261440825871180 - 691575882.87385249 0.44761379589795025 -1.9525499812733589 - 697981390.78306675 0.45074877667220242 -2.0817702102128490 - 704446227.72990513 0.45448101392476448 -2.2142603177211648 - 710970943.23124242 0.45857176688760892 -2.3503739542393030 - 717556091.89369214 0.46272343215658590 -2.4903182067325043 - 724202233.46073151 0.46659375846342999 -2.6341097080358393 - 730909932.86029184 0.46982282691956667 -2.7815400944611670 - 737679760.25277460 0.47207280100710858 -2.9321620018576366 - 744512291.07951283 0.47307571484788274 -3.0853064421391379 - 751408106.11169624 0.47267948862265785 3.0430479067617853 - 758367791.49971902 0.47087975665639281 2.8874452060151836 - 765391938.82301557 0.46782744459618120 2.7319565020593042 - 772481145.14034164 0.46380924220662217 2.5773321030893217 - 779636013.04052210 0.45920684867901906 2.4241021871595567 - 786857150.69368434 0.45444663289545306 2.2725264138992656 - 794145171.90293396 0.44995171325906669 2.1225798865839498 - 801500696.15654135 0.44610436553807176 1.9739689377682994 - 808924348.68059552 0.44322105677076185 1.8261664067738048 - 816416760.49214554 0.44153792019606825 1.6784569071751088 - 823978568.45285118 0.44120225695631754 1.5299862279069816 - 831610415.32309616 0.44226551969662337 1.3798134802680515 - 839312949.81663728 0.44467460292380956 1.2269684904136873 - 847086826.65574193 0.44826072635539915 1.0705193461175946 - 854932706.62683666 0.45272865566130993 0.90965507144025926 - 862851256.63668871 0.45765329549914258 0.74378493082372077 - 870843149.76907241 0.46249477892168567 0.57264762064518493 - 878909065.34199631 0.46664433456473464 0.39641074193523429 - 887049688.96544206 0.46950731549929120 0.21572744021790688 - 895265712.59963822 0.47061438546316237 3.1712156565346053E-002 - 903557834.61389208 0.46973162454545403 -0.15418823108840329 - 911926759.84592986 0.46692880883350030 -0.34041618028322351 - 920373199.66182303 0.46257574788487849 -0.52556583265967860 - 928897872.01645172 0.45726721370087603 -0.70861405729304161 - 937501501.51452708 0.45170742098715755 -0.88906411395430263 - 946184819.47219920 0.44659490634593496 -1.0669850853550240 - 954948563.97919667 0.44253594704540583 -1.2429664885285112 - 963793479.96157956 0.43999320871711856 -1.4180229361524850 - 972720319.24505568 0.43926024077781484 -1.5934783911061476 - 981729840.61888206 0.44044681264348384 -1.7708437319895478 - 990822809.90037870 0.44346299641349818 -1.9516851316501995 - 1000000000.0000000 0.44799824899143437 -2.1374703198576124 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/result_comparison.dat_reference deleted file mode 100644 index ce7ddc6..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00266930 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/spice_solution.dat_reference deleted file mode 100644 index dc5f56d..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:56:42 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.994500e-01 -1 1.009253e+05 4.994500e-01 -2 1.018591e+05 4.994499e-01 -3 1.028016e+05 4.994499e-01 -4 1.037528e+05 4.994499e-01 -5 1.047129e+05 4.994499e-01 -6 1.056818e+05 4.994499e-01 -7 1.066596e+05 4.994499e-01 -8 1.076465e+05 4.994499e-01 -9 1.086426e+05 4.994499e-01 -10 1.096478e+05 4.994499e-01 -11 1.106624e+05 4.994499e-01 -12 1.116863e+05 4.994499e-01 -13 1.127197e+05 4.994499e-01 -14 1.137627e+05 4.994498e-01 -15 1.148154e+05 4.994498e-01 -16 1.158777e+05 4.994498e-01 -17 1.169499e+05 4.994498e-01 -18 1.180321e+05 4.994498e-01 -19 1.191242e+05 4.994498e-01 -20 1.202264e+05 4.994498e-01 -21 1.213389e+05 4.994498e-01 -22 1.224616e+05 4.994498e-01 -23 1.235947e+05 4.994498e-01 -24 1.247384e+05 4.994497e-01 -25 1.258925e+05 4.994497e-01 -26 1.270574e+05 4.994497e-01 -27 1.282331e+05 4.994497e-01 -28 1.294196e+05 4.994497e-01 -29 1.306171e+05 4.994497e-01 -30 1.318257e+05 4.994497e-01 -31 1.330454e+05 4.994497e-01 -32 1.342765e+05 4.994497e-01 -33 1.355189e+05 4.994496e-01 -34 1.367729e+05 4.994496e-01 -35 1.380384e+05 4.994496e-01 -36 1.393157e+05 4.994496e-01 -37 1.406048e+05 4.994496e-01 -38 1.419058e+05 4.994496e-01 -39 1.432188e+05 4.994496e-01 -40 1.445440e+05 4.994495e-01 -41 1.458814e+05 4.994495e-01 -42 1.472313e+05 4.994495e-01 -43 1.485936e+05 4.994495e-01 -44 1.499685e+05 4.994495e-01 -45 1.513561e+05 4.994495e-01 -46 1.527566e+05 4.994495e-01 -47 1.541700e+05 4.994494e-01 -48 1.555966e+05 4.994494e-01 -49 1.570363e+05 4.994494e-01 -50 1.584893e+05 4.994494e-01 -51 1.599558e+05 4.994494e-01 -52 1.614359e+05 4.994493e-01 -53 1.629296e+05 4.994493e-01 -54 1.644372e+05 4.994493e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.994493e-01 -56 1.674943e+05 4.994493e-01 -57 1.690441e+05 4.994493e-01 -58 1.706082e+05 4.994492e-01 -59 1.721869e+05 4.994492e-01 -60 1.737801e+05 4.994492e-01 -61 1.753881e+05 4.994492e-01 -62 1.770109e+05 4.994491e-01 -63 1.786488e+05 4.994491e-01 -64 1.803018e+05 4.994491e-01 -65 1.819701e+05 4.994491e-01 -66 1.836538e+05 4.994491e-01 -67 1.853532e+05 4.994490e-01 -68 1.870682e+05 4.994490e-01 -69 1.887991e+05 4.994490e-01 -70 1.905461e+05 4.994490e-01 -71 1.923092e+05 4.994489e-01 -72 1.940886e+05 4.994489e-01 -73 1.958845e+05 4.994489e-01 -74 1.976970e+05 4.994489e-01 -75 1.995262e+05 4.994488e-01 -76 2.013724e+05 4.994488e-01 -77 2.032357e+05 4.994488e-01 -78 2.051162e+05 4.994487e-01 -79 2.070141e+05 4.994487e-01 -80 2.089296e+05 4.994487e-01 -81 2.108628e+05 4.994486e-01 -82 2.128139e+05 4.994486e-01 -83 2.147830e+05 4.994486e-01 -84 2.167704e+05 4.994486e-01 -85 2.187762e+05 4.994485e-01 -86 2.208005e+05 4.994485e-01 -87 2.228435e+05 4.994485e-01 -88 2.249055e+05 4.994484e-01 -89 2.269865e+05 4.994484e-01 -90 2.290868e+05 4.994483e-01 -91 2.312065e+05 4.994483e-01 -92 2.333458e+05 4.994483e-01 -93 2.355049e+05 4.994482e-01 -94 2.376840e+05 4.994482e-01 -95 2.398833e+05 4.994482e-01 -96 2.421029e+05 4.994481e-01 -97 2.443431e+05 4.994481e-01 -98 2.466039e+05 4.994480e-01 -99 2.488857e+05 4.994480e-01 -100 2.511886e+05 4.994479e-01 -101 2.535129e+05 4.994479e-01 -102 2.558586e+05 4.994479e-01 -103 2.582260e+05 4.994478e-01 -104 2.606154e+05 4.994478e-01 -105 2.630268e+05 4.994477e-01 -106 2.654606e+05 4.994477e-01 -107 2.679168e+05 4.994476e-01 -108 2.703958e+05 4.994476e-01 -109 2.728978e+05 4.994475e-01 -110 2.754229e+05 4.994475e-01 -111 2.779713e+05 4.994474e-01 -112 2.805434e+05 4.994473e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.994473e-01 -114 2.857591e+05 4.994472e-01 -115 2.884032e+05 4.994472e-01 -116 2.910717e+05 4.994471e-01 -117 2.937650e+05 4.994471e-01 -118 2.964831e+05 4.994470e-01 -119 2.992265e+05 4.994469e-01 -120 3.019952e+05 4.994469e-01 -121 3.047895e+05 4.994468e-01 -122 3.076097e+05 4.994467e-01 -123 3.104560e+05 4.994467e-01 -124 3.133286e+05 4.994466e-01 -125 3.162278e+05 4.994465e-01 -126 3.191538e+05 4.994465e-01 -127 3.221069e+05 4.994464e-01 -128 3.250873e+05 4.994463e-01 -129 3.280953e+05 4.994462e-01 -130 3.311311e+05 4.994462e-01 -131 3.341950e+05 4.994461e-01 -132 3.372873e+05 4.994460e-01 -133 3.404082e+05 4.994459e-01 -134 3.435579e+05 4.994459e-01 -135 3.467369e+05 4.994458e-01 -136 3.499452e+05 4.994457e-01 -137 3.531832e+05 4.994456e-01 -138 3.564511e+05 4.994455e-01 -139 3.597493e+05 4.994454e-01 -140 3.630781e+05 4.994453e-01 -141 3.664376e+05 4.994452e-01 -142 3.698282e+05 4.994451e-01 -143 3.732502e+05 4.994450e-01 -144 3.767038e+05 4.994449e-01 -145 3.801894e+05 4.994448e-01 -146 3.837072e+05 4.994447e-01 -147 3.872576e+05 4.994446e-01 -148 3.908409e+05 4.994445e-01 -149 3.944573e+05 4.994444e-01 -150 3.981072e+05 4.994443e-01 -151 4.017908e+05 4.994442e-01 -152 4.055085e+05 4.994441e-01 -153 4.092607e+05 4.994440e-01 -154 4.130475e+05 4.994439e-01 -155 4.168694e+05 4.994437e-01 -156 4.207266e+05 4.994436e-01 -157 4.246196e+05 4.994435e-01 -158 4.285485e+05 4.994434e-01 -159 4.325138e+05 4.994432e-01 -160 4.365158e+05 4.994431e-01 -161 4.405549e+05 4.994430e-01 -162 4.446313e+05 4.994428e-01 -163 4.487454e+05 4.994427e-01 -164 4.528976e+05 4.994425e-01 -165 4.570882e+05 4.994424e-01 -166 4.613176e+05 4.994423e-01 -167 4.655861e+05 4.994421e-01 -168 4.698941e+05 4.994420e-01 -169 4.742420e+05 4.994418e-01 -170 4.786301e+05 4.994416e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.994415e-01 -172 4.875285e+05 4.994413e-01 -173 4.920395e+05 4.994411e-01 -174 4.965923e+05 4.994410e-01 -175 5.011872e+05 4.994408e-01 -176 5.058247e+05 4.994406e-01 -177 5.105050e+05 4.994404e-01 -178 5.152286e+05 4.994403e-01 -179 5.199960e+05 4.994401e-01 -180 5.248075e+05 4.994399e-01 -181 5.296634e+05 4.994397e-01 -182 5.345644e+05 4.994395e-01 -183 5.395106e+05 4.994393e-01 -184 5.445027e+05 4.994391e-01 -185 5.495409e+05 4.994389e-01 -186 5.546257e+05 4.994387e-01 -187 5.597576e+05 4.994384e-01 -188 5.649370e+05 4.994382e-01 -189 5.701643e+05 4.994380e-01 -190 5.754399e+05 4.994378e-01 -191 5.807644e+05 4.994375e-01 -192 5.861382e+05 4.994373e-01 -193 5.915616e+05 4.994371e-01 -194 5.970353e+05 4.994368e-01 -195 6.025596e+05 4.994366e-01 -196 6.081350e+05 4.994363e-01 -197 6.137620e+05 4.994360e-01 -198 6.194411e+05 4.994358e-01 -199 6.251727e+05 4.994355e-01 -200 6.309573e+05 4.994352e-01 -201 6.367955e+05 4.994349e-01 -202 6.426877e+05 4.994347e-01 -203 6.486344e+05 4.994344e-01 -204 6.546362e+05 4.994341e-01 -205 6.606934e+05 4.994338e-01 -206 6.668068e+05 4.994335e-01 -207 6.729767e+05 4.994331e-01 -208 6.792036e+05 4.994328e-01 -209 6.854882e+05 4.994325e-01 -210 6.918310e+05 4.994322e-01 -211 6.982324e+05 4.994318e-01 -212 7.046931e+05 4.994315e-01 -213 7.112135e+05 4.994311e-01 -214 7.177943e+05 4.994308e-01 -215 7.244360e+05 4.994304e-01 -216 7.311391e+05 4.994300e-01 -217 7.379042e+05 4.994297e-01 -218 7.447320e+05 4.994293e-01 -219 7.516229e+05 4.994289e-01 -220 7.585776e+05 4.994285e-01 -221 7.655966e+05 4.994281e-01 -222 7.726806e+05 4.994277e-01 -223 7.798301e+05 4.994273e-01 -224 7.870458e+05 4.994268e-01 -225 7.943282e+05 4.994264e-01 -226 8.016781e+05 4.994260e-01 -227 8.090959e+05 4.994255e-01 -228 8.165824e+05 4.994250e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.994246e-01 -230 8.317638e+05 4.994241e-01 -231 8.394600e+05 4.994236e-01 -232 8.472274e+05 4.994231e-01 -233 8.550667e+05 4.994226e-01 -234 8.629785e+05 4.994221e-01 -235 8.709636e+05 4.994216e-01 -236 8.790225e+05 4.994210e-01 -237 8.871560e+05 4.994205e-01 -238 8.953648e+05 4.994199e-01 -239 9.036495e+05 4.994194e-01 -240 9.120108e+05 4.994188e-01 -241 9.204496e+05 4.994182e-01 -242 9.289664e+05 4.994176e-01 -243 9.375620e+05 4.994170e-01 -244 9.462372e+05 4.994164e-01 -245 9.549926e+05 4.994157e-01 -246 9.638290e+05 4.994151e-01 -247 9.727472e+05 4.994145e-01 -248 9.817479e+05 4.994138e-01 -249 9.908319e+05 4.994131e-01 -250 1.000000e+06 4.994124e-01 -251 1.009253e+06 4.994117e-01 -252 1.018591e+06 4.994110e-01 -253 1.028016e+06 4.994103e-01 -254 1.037528e+06 4.994095e-01 -255 1.047129e+06 4.994088e-01 -256 1.056818e+06 4.994080e-01 -257 1.066596e+06 4.994072e-01 -258 1.076465e+06 4.994064e-01 -259 1.086426e+06 4.994056e-01 -260 1.096478e+06 4.994048e-01 -261 1.106624e+06 4.994039e-01 -262 1.116863e+06 4.994031e-01 -263 1.127197e+06 4.994022e-01 -264 1.137627e+06 4.994013e-01 -265 1.148154e+06 4.994004e-01 -266 1.158777e+06 4.993994e-01 -267 1.169499e+06 4.993985e-01 -268 1.180321e+06 4.993975e-01 -269 1.191242e+06 4.993966e-01 -270 1.202264e+06 4.993956e-01 -271 1.213389e+06 4.993946e-01 -272 1.224616e+06 4.993935e-01 -273 1.235947e+06 4.993925e-01 -274 1.247384e+06 4.993914e-01 -275 1.258925e+06 4.993903e-01 -276 1.270574e+06 4.993892e-01 -277 1.282331e+06 4.993881e-01 -278 1.294196e+06 4.993869e-01 -279 1.306171e+06 4.993857e-01 -280 1.318257e+06 4.993845e-01 -281 1.330454e+06 4.993833e-01 -282 1.342765e+06 4.993821e-01 -283 1.355189e+06 4.993808e-01 -284 1.367729e+06 4.993795e-01 -285 1.380384e+06 4.993782e-01 -286 1.393157e+06 4.993769e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.993755e-01 -288 1.419058e+06 4.993741e-01 -289 1.432188e+06 4.993727e-01 -290 1.445440e+06 4.993713e-01 -291 1.458814e+06 4.993698e-01 -292 1.472313e+06 4.993683e-01 -293 1.485936e+06 4.993668e-01 -294 1.499685e+06 4.993652e-01 -295 1.513561e+06 4.993637e-01 -296 1.527566e+06 4.993621e-01 -297 1.541700e+06 4.993604e-01 -298 1.555966e+06 4.993588e-01 -299 1.570363e+06 4.993571e-01 -300 1.584893e+06 4.993553e-01 -301 1.599558e+06 4.993536e-01 -302 1.614359e+06 4.993518e-01 -303 1.629296e+06 4.993500e-01 -304 1.644372e+06 4.993481e-01 -305 1.659587e+06 4.993462e-01 -306 1.674943e+06 4.993443e-01 -307 1.690441e+06 4.993423e-01 -308 1.706082e+06 4.993403e-01 -309 1.721869e+06 4.993383e-01 -310 1.737801e+06 4.993362e-01 -311 1.753881e+06 4.993341e-01 -312 1.770109e+06 4.993320e-01 -313 1.786488e+06 4.993298e-01 -314 1.803018e+06 4.993275e-01 -315 1.819701e+06 4.993253e-01 -316 1.836538e+06 4.993230e-01 -317 1.853532e+06 4.993206e-01 -318 1.870682e+06 4.993182e-01 -319 1.887991e+06 4.993158e-01 -320 1.905461e+06 4.993133e-01 -321 1.923092e+06 4.993108e-01 -322 1.940886e+06 4.993082e-01 -323 1.958845e+06 4.993055e-01 -324 1.976970e+06 4.993029e-01 -325 1.995262e+06 4.993002e-01 -326 2.013724e+06 4.992974e-01 -327 2.032357e+06 4.992946e-01 -328 2.051162e+06 4.992917e-01 -329 2.070141e+06 4.992888e-01 -330 2.089296e+06 4.992858e-01 -331 2.108628e+06 4.992827e-01 -332 2.128139e+06 4.992796e-01 -333 2.147830e+06 4.992765e-01 -334 2.167704e+06 4.992733e-01 -335 2.187762e+06 4.992700e-01 -336 2.208005e+06 4.992667e-01 -337 2.228435e+06 4.992633e-01 -338 2.249055e+06 4.992599e-01 -339 2.269865e+06 4.992564e-01 -340 2.290868e+06 4.992528e-01 -341 2.312065e+06 4.992491e-01 -342 2.333458e+06 4.992454e-01 -343 2.355049e+06 4.992417e-01 -344 2.376840e+06 4.992378e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.992339e-01 -346 2.421029e+06 4.992299e-01 -347 2.443431e+06 4.992259e-01 -348 2.466039e+06 4.992217e-01 -349 2.488857e+06 4.992175e-01 -350 2.511886e+06 4.992133e-01 -351 2.535129e+06 4.992089e-01 -352 2.558586e+06 4.992045e-01 -353 2.582260e+06 4.991999e-01 -354 2.606154e+06 4.991953e-01 -355 2.630268e+06 4.991907e-01 -356 2.654606e+06 4.991859e-01 -357 2.679168e+06 4.991810e-01 -358 2.703958e+06 4.991761e-01 -359 2.728978e+06 4.991711e-01 -360 2.754229e+06 4.991659e-01 -361 2.779713e+06 4.991607e-01 -362 2.805434e+06 4.991554e-01 -363 2.831392e+06 4.991500e-01 -364 2.857591e+06 4.991445e-01 -365 2.884032e+06 4.991389e-01 -366 2.910717e+06 4.991332e-01 -367 2.937650e+06 4.991274e-01 -368 2.964831e+06 4.991214e-01 -369 2.992265e+06 4.991154e-01 -370 3.019952e+06 4.991093e-01 -371 3.047895e+06 4.991030e-01 -372 3.076097e+06 4.990967e-01 -373 3.104560e+06 4.990902e-01 -374 3.133286e+06 4.990836e-01 -375 3.162278e+06 4.990769e-01 -376 3.191538e+06 4.990701e-01 -377 3.221069e+06 4.990632e-01 -378 3.250873e+06 4.990561e-01 -379 3.280953e+06 4.990489e-01 -380 3.311311e+06 4.990416e-01 -381 3.341950e+06 4.990341e-01 -382 3.372873e+06 4.990265e-01 -383 3.404082e+06 4.990188e-01 -384 3.435579e+06 4.990109e-01 -385 3.467369e+06 4.990029e-01 -386 3.499452e+06 4.989948e-01 -387 3.531832e+06 4.989865e-01 -388 3.564511e+06 4.989781e-01 -389 3.597493e+06 4.989695e-01 -390 3.630781e+06 4.989607e-01 -391 3.664376e+06 4.989518e-01 -392 3.698282e+06 4.989428e-01 -393 3.732502e+06 4.989336e-01 -394 3.767038e+06 4.989242e-01 -395 3.801894e+06 4.989146e-01 -396 3.837072e+06 4.989049e-01 -397 3.872576e+06 4.988950e-01 -398 3.908409e+06 4.988850e-01 -399 3.944573e+06 4.988747e-01 -400 3.981072e+06 4.988643e-01 -401 4.017908e+06 4.988537e-01 -402 4.055085e+06 4.988429e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.988319e-01 -404 4.130475e+06 4.988207e-01 -405 4.168694e+06 4.988094e-01 -406 4.207266e+06 4.987978e-01 -407 4.246196e+06 4.987860e-01 -408 4.285485e+06 4.987740e-01 -409 4.325138e+06 4.987619e-01 -410 4.365158e+06 4.987495e-01 -411 4.405549e+06 4.987368e-01 -412 4.446313e+06 4.987240e-01 -413 4.487454e+06 4.987109e-01 -414 4.528976e+06 4.986976e-01 -415 4.570882e+06 4.986841e-01 -416 4.613176e+06 4.986704e-01 -417 4.655861e+06 4.986564e-01 -418 4.698941e+06 4.986421e-01 -419 4.742420e+06 4.986277e-01 -420 4.786301e+06 4.986129e-01 -421 4.830588e+06 4.985979e-01 -422 4.875285e+06 4.985827e-01 -423 4.920395e+06 4.985672e-01 -424 4.965923e+06 4.985514e-01 -425 5.011872e+06 4.985354e-01 -426 5.058247e+06 4.985191e-01 -427 5.105050e+06 4.985025e-01 -428 5.152286e+06 4.984856e-01 -429 5.199960e+06 4.984684e-01 -430 5.248075e+06 4.984509e-01 -431 5.296634e+06 4.984332e-01 -432 5.345644e+06 4.984151e-01 -433 5.395106e+06 4.983968e-01 -434 5.445027e+06 4.983781e-01 -435 5.495409e+06 4.983591e-01 -436 5.546257e+06 4.983398e-01 -437 5.597576e+06 4.983201e-01 -438 5.649370e+06 4.983002e-01 -439 5.701643e+06 4.982799e-01 -440 5.754399e+06 4.982592e-01 -441 5.807644e+06 4.982382e-01 -442 5.861382e+06 4.982169e-01 -443 5.915616e+06 4.981952e-01 -444 5.970353e+06 4.981731e-01 -445 6.025596e+06 4.981507e-01 -446 6.081350e+06 4.981279e-01 -447 6.137620e+06 4.981047e-01 -448 6.194411e+06 4.980812e-01 -449 6.251727e+06 4.980572e-01 -450 6.309573e+06 4.980329e-01 -451 6.367955e+06 4.980081e-01 -452 6.426877e+06 4.979830e-01 -453 6.486344e+06 4.979574e-01 -454 6.546362e+06 4.979314e-01 -455 6.606934e+06 4.979050e-01 -456 6.668068e+06 4.978782e-01 -457 6.729767e+06 4.978509e-01 -458 6.792036e+06 4.978232e-01 -459 6.854882e+06 4.977951e-01 -460 6.918310e+06 4.977665e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.977374e-01 -462 7.046931e+06 4.977078e-01 -463 7.112135e+06 4.976778e-01 -464 7.177943e+06 4.976473e-01 -465 7.244360e+06 4.976164e-01 -466 7.311391e+06 4.975849e-01 -467 7.379042e+06 4.975529e-01 -468 7.447320e+06 4.975204e-01 -469 7.516229e+06 4.974874e-01 -470 7.585776e+06 4.974539e-01 -471 7.655966e+06 4.974199e-01 -472 7.726806e+06 4.973853e-01 -473 7.798301e+06 4.973502e-01 -474 7.870458e+06 4.973145e-01 -475 7.943282e+06 4.972783e-01 -476 8.016781e+06 4.972415e-01 -477 8.090959e+06 4.972042e-01 -478 8.165824e+06 4.971663e-01 -479 8.241381e+06 4.971277e-01 -480 8.317638e+06 4.970886e-01 -481 8.394600e+06 4.970489e-01 -482 8.472274e+06 4.970086e-01 -483 8.550667e+06 4.969677e-01 -484 8.629785e+06 4.969262e-01 -485 8.709636e+06 4.968840e-01 -486 8.790225e+06 4.968412e-01 -487 8.871560e+06 4.967977e-01 -488 8.953648e+06 4.967536e-01 -489 9.036495e+06 4.967088e-01 -490 9.120108e+06 4.966634e-01 -491 9.204496e+06 4.966173e-01 -492 9.289664e+06 4.965705e-01 -493 9.375620e+06 4.965230e-01 -494 9.462372e+06 4.964748e-01 -495 9.549926e+06 4.964259e-01 -496 9.638290e+06 4.963763e-01 -497 9.727472e+06 4.963259e-01 -498 9.817479e+06 4.962749e-01 -499 9.908319e+06 4.962230e-01 -500 1.000000e+07 4.961705e-01 -501 1.009253e+07 4.961171e-01 -502 1.018591e+07 4.960630e-01 -503 1.028016e+07 4.960081e-01 -504 1.037528e+07 4.959525e-01 -505 1.047129e+07 4.958960e-01 -506 1.056818e+07 4.958388e-01 -507 1.066596e+07 4.957807e-01 -508 1.076465e+07 4.957218e-01 -509 1.086426e+07 4.956621e-01 -510 1.096478e+07 4.956015e-01 -511 1.106624e+07 4.955401e-01 -512 1.116863e+07 4.954778e-01 -513 1.127197e+07 4.954147e-01 -514 1.137627e+07 4.953507e-01 -515 1.148154e+07 4.952858e-01 -516 1.158777e+07 4.952200e-01 -517 1.169499e+07 4.951533e-01 -518 1.180321e+07 4.950857e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.950172e-01 -520 1.202264e+07 4.949477e-01 -521 1.213389e+07 4.948773e-01 -522 1.224616e+07 4.948060e-01 -523 1.235947e+07 4.947336e-01 -524 1.247384e+07 4.946604e-01 -525 1.258925e+07 4.945861e-01 -526 1.270574e+07 4.945108e-01 -527 1.282331e+07 4.944346e-01 -528 1.294196e+07 4.943573e-01 -529 1.306171e+07 4.942790e-01 -530 1.318257e+07 4.941997e-01 -531 1.330454e+07 4.941193e-01 -532 1.342765e+07 4.940379e-01 -533 1.355189e+07 4.939554e-01 -534 1.367729e+07 4.938718e-01 -535 1.380384e+07 4.937872e-01 -536 1.393157e+07 4.937015e-01 -537 1.406048e+07 4.936146e-01 -538 1.419058e+07 4.935266e-01 -539 1.432188e+07 4.934376e-01 -540 1.445440e+07 4.933473e-01 -541 1.458814e+07 4.932559e-01 -542 1.472313e+07 4.931634e-01 -543 1.485936e+07 4.930697e-01 -544 1.499685e+07 4.929748e-01 -545 1.513561e+07 4.928787e-01 -546 1.527566e+07 4.927813e-01 -547 1.541700e+07 4.926828e-01 -548 1.555966e+07 4.925830e-01 -549 1.570363e+07 4.924820e-01 -550 1.584893e+07 4.923798e-01 -551 1.599558e+07 4.922762e-01 -552 1.614359e+07 4.921714e-01 -553 1.629296e+07 4.920653e-01 -554 1.644372e+07 4.919578e-01 -555 1.659587e+07 4.918491e-01 -556 1.674943e+07 4.917390e-01 -557 1.690441e+07 4.916276e-01 -558 1.706082e+07 4.915148e-01 -559 1.721869e+07 4.914007e-01 -560 1.737801e+07 4.912851e-01 -561 1.753881e+07 4.911682e-01 -562 1.770109e+07 4.910498e-01 -563 1.786488e+07 4.909300e-01 -564 1.803018e+07 4.908088e-01 -565 1.819701e+07 4.906861e-01 -566 1.836538e+07 4.905620e-01 -567 1.853532e+07 4.904364e-01 -568 1.870682e+07 4.903092e-01 -569 1.887991e+07 4.901806e-01 -570 1.905461e+07 4.900504e-01 -571 1.923092e+07 4.899187e-01 -572 1.940886e+07 4.897855e-01 -573 1.958845e+07 4.896507e-01 -574 1.976970e+07 4.895143e-01 -575 1.995262e+07 4.893762e-01 -576 2.013724e+07 4.892366e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.890954e-01 -578 2.051162e+07 4.889525e-01 -579 2.070141e+07 4.888079e-01 -580 2.089296e+07 4.886617e-01 -581 2.108628e+07 4.885138e-01 -582 2.128139e+07 4.883642e-01 -583 2.147830e+07 4.882129e-01 -584 2.167704e+07 4.880598e-01 -585 2.187762e+07 4.879050e-01 -586 2.208005e+07 4.877484e-01 -587 2.228435e+07 4.875900e-01 -588 2.249055e+07 4.874299e-01 -589 2.269865e+07 4.872679e-01 -590 2.290868e+07 4.871041e-01 -591 2.312065e+07 4.869385e-01 -592 2.333458e+07 4.867710e-01 -593 2.355049e+07 4.866017e-01 -594 2.376840e+07 4.864305e-01 -595 2.398833e+07 4.862573e-01 -596 2.421029e+07 4.860823e-01 -597 2.443431e+07 4.859054e-01 -598 2.466039e+07 4.857265e-01 -599 2.488857e+07 4.855456e-01 -600 2.511886e+07 4.853628e-01 -601 2.535129e+07 4.851780e-01 -602 2.558586e+07 4.849913e-01 -603 2.582260e+07 4.848025e-01 -604 2.606154e+07 4.846117e-01 -605 2.630268e+07 4.844189e-01 -606 2.654606e+07 4.842241e-01 -607 2.679168e+07 4.840272e-01 -608 2.703958e+07 4.838283e-01 -609 2.728978e+07 4.836272e-01 -610 2.754229e+07 4.834242e-01 -611 2.779713e+07 4.832190e-01 -612 2.805434e+07 4.830118e-01 -613 2.831392e+07 4.828024e-01 -614 2.857591e+07 4.825910e-01 -615 2.884032e+07 4.823774e-01 -616 2.910717e+07 4.821618e-01 -617 2.937650e+07 4.819440e-01 -618 2.964831e+07 4.817241e-01 -619 2.992265e+07 4.815021e-01 -620 3.019952e+07 4.812780e-01 -621 3.047895e+07 4.810517e-01 -622 3.076097e+07 4.808233e-01 -623 3.104560e+07 4.805928e-01 -624 3.133286e+07 4.803602e-01 -625 3.162278e+07 4.801255e-01 -626 3.191538e+07 4.798887e-01 -627 3.221069e+07 4.796497e-01 -628 3.250873e+07 4.794087e-01 -629 3.280953e+07 4.791656e-01 -630 3.311311e+07 4.789204e-01 -631 3.341950e+07 4.786732e-01 -632 3.372873e+07 4.784239e-01 -633 3.404082e+07 4.781726e-01 -634 3.435579e+07 4.779193e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.776640e-01 -636 3.499452e+07 4.774067e-01 -637 3.531832e+07 4.771475e-01 -638 3.564511e+07 4.768864e-01 -639 3.597493e+07 4.766233e-01 -640 3.630781e+07 4.763584e-01 -641 3.664376e+07 4.760917e-01 -642 3.698282e+07 4.758232e-01 -643 3.732502e+07 4.755529e-01 -644 3.767038e+07 4.752808e-01 -645 3.801894e+07 4.750071e-01 -646 3.837072e+07 4.747318e-01 -647 3.872576e+07 4.744548e-01 -648 3.908409e+07 4.741763e-01 -649 3.944573e+07 4.738963e-01 -650 3.981072e+07 4.736148e-01 -651 4.017908e+07 4.733320e-01 -652 4.055085e+07 4.730478e-01 -653 4.092607e+07 4.727624e-01 -654 4.130475e+07 4.724757e-01 -655 4.168694e+07 4.721879e-01 -656 4.207266e+07 4.718991e-01 -657 4.246196e+07 4.716093e-01 -658 4.285485e+07 4.713186e-01 -659 4.325138e+07 4.710270e-01 -660 4.365158e+07 4.707347e-01 -661 4.405549e+07 4.704418e-01 -662 4.446313e+07 4.701483e-01 -663 4.487454e+07 4.698544e-01 -664 4.528976e+07 4.695601e-01 -665 4.570882e+07 4.692655e-01 -666 4.613176e+07 4.689708e-01 -667 4.655861e+07 4.686761e-01 -668 4.698941e+07 4.683815e-01 -669 4.742420e+07 4.680871e-01 -670 4.786301e+07 4.677930e-01 -671 4.830588e+07 4.674994e-01 -672 4.875285e+07 4.672064e-01 -673 4.920395e+07 4.669141e-01 -674 4.965923e+07 4.666227e-01 -675 5.011872e+07 4.663324e-01 -676 5.058247e+07 4.660433e-01 -677 5.105050e+07 4.657555e-01 -678 5.152286e+07 4.654692e-01 -679 5.199960e+07 4.651846e-01 -680 5.248075e+07 4.649018e-01 -681 5.296634e+07 4.646211e-01 -682 5.345644e+07 4.643426e-01 -683 5.395106e+07 4.640665e-01 -684 5.445027e+07 4.637930e-01 -685 5.495409e+07 4.635223e-01 -686 5.546257e+07 4.632546e-01 -687 5.597576e+07 4.629902e-01 -688 5.649370e+07 4.627291e-01 -689 5.701643e+07 4.624717e-01 -690 5.754399e+07 4.622181e-01 -691 5.807644e+07 4.619687e-01 -692 5.861382e+07 4.617236e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.614831e-01 -694 5.970353e+07 4.612474e-01 -695 6.025596e+07 4.610168e-01 -696 6.081350e+07 4.607915e-01 -697 6.137620e+07 4.605718e-01 -698 6.194411e+07 4.603579e-01 -699 6.251727e+07 4.601502e-01 -700 6.309573e+07 4.599490e-01 -701 6.367955e+07 4.597544e-01 -702 6.426877e+07 4.595667e-01 -703 6.486344e+07 4.593864e-01 -704 6.546362e+07 4.592136e-01 -705 6.606934e+07 4.590487e-01 -706 6.668068e+07 4.588919e-01 -707 6.729767e+07 4.587437e-01 -708 6.792036e+07 4.586042e-01 -709 6.854882e+07 4.584738e-01 -710 6.918310e+07 4.583528e-01 -711 6.982324e+07 4.582416e-01 -712 7.046931e+07 4.581404e-01 -713 7.112135e+07 4.580497e-01 -714 7.177943e+07 4.579696e-01 -715 7.244360e+07 4.579007e-01 -716 7.311391e+07 4.578430e-01 -717 7.379042e+07 4.577972e-01 -718 7.447320e+07 4.577633e-01 -719 7.516229e+07 4.577419e-01 -720 7.585776e+07 4.577331e-01 -721 7.655966e+07 4.577374e-01 -722 7.726806e+07 4.577551e-01 -723 7.798301e+07 4.577865e-01 -724 7.870458e+07 4.578319e-01 -725 7.943282e+07 4.578917e-01 -726 8.016781e+07 4.579661e-01 -727 8.090959e+07 4.580555e-01 -728 8.165824e+07 4.581601e-01 -729 8.241381e+07 4.582803e-01 -730 8.317638e+07 4.584164e-01 -731 8.394600e+07 4.585686e-01 -732 8.472274e+07 4.587372e-01 -733 8.550667e+07 4.589224e-01 -734 8.629785e+07 4.591246e-01 -735 8.709636e+07 4.593438e-01 -736 8.790225e+07 4.595803e-01 -737 8.871560e+07 4.598344e-01 -738 8.953648e+07 4.601061e-01 -739 9.036495e+07 4.603957e-01 -740 9.120108e+07 4.607032e-01 -741 9.204496e+07 4.610287e-01 -742 9.289664e+07 4.613724e-01 -743 9.375620e+07 4.617342e-01 -744 9.462372e+07 4.621141e-01 -745 9.549926e+07 4.625122e-01 -746 9.638290e+07 4.629284e-01 -747 9.727472e+07 4.633625e-01 -748 9.817479e+07 4.638145e-01 -749 9.908319e+07 4.642841e-01 -750 1.000000e+08 4.647710e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.652750e-01 -752 1.018591e+08 4.657958e-01 -753 1.028016e+08 4.663329e-01 -754 1.037528e+08 4.668859e-01 -755 1.047129e+08 4.674542e-01 -756 1.056818e+08 4.680372e-01 -757 1.066596e+08 4.686344e-01 -758 1.076465e+08 4.692448e-01 -759 1.086426e+08 4.698677e-01 -760 1.096478e+08 4.705022e-01 -761 1.106624e+08 4.711472e-01 -762 1.116863e+08 4.718018e-01 -763 1.127197e+08 4.724648e-01 -764 1.137627e+08 4.731348e-01 -765 1.148154e+08 4.738106e-01 -766 1.158777e+08 4.744906e-01 -767 1.169499e+08 4.751734e-01 -768 1.180321e+08 4.758572e-01 -769 1.191242e+08 4.765403e-01 -770 1.202264e+08 4.772208e-01 -771 1.213389e+08 4.778969e-01 -772 1.224616e+08 4.785663e-01 -773 1.235947e+08 4.792271e-01 -774 1.247384e+08 4.798768e-01 -775 1.258925e+08 4.805132e-01 -776 1.270574e+08 4.811338e-01 -777 1.282331e+08 4.817362e-01 -778 1.294196e+08 4.823177e-01 -779 1.306171e+08 4.828756e-01 -780 1.318257e+08 4.834074e-01 -781 1.330454e+08 4.839101e-01 -782 1.342765e+08 4.843811e-01 -783 1.355189e+08 4.848176e-01 -784 1.367729e+08 4.852167e-01 -785 1.380384e+08 4.855758e-01 -786 1.393157e+08 4.858919e-01 -787 1.406048e+08 4.861624e-01 -788 1.419058e+08 4.863848e-01 -789 1.432188e+08 4.865565e-01 -790 1.445440e+08 4.866750e-01 -791 1.458814e+08 4.867382e-01 -792 1.472313e+08 4.867438e-01 -793 1.485936e+08 4.866901e-01 -794 1.499685e+08 4.865752e-01 -795 1.513561e+08 4.863978e-01 -796 1.527566e+08 4.861566e-01 -797 1.541700e+08 4.858507e-01 -798 1.555966e+08 4.854795e-01 -799 1.570363e+08 4.850427e-01 -800 1.584893e+08 4.845402e-01 -801 1.599558e+08 4.839725e-01 -802 1.614359e+08 4.833404e-01 -803 1.629296e+08 4.826450e-01 -804 1.644372e+08 4.818877e-01 -805 1.659587e+08 4.810705e-01 -806 1.674943e+08 4.801956e-01 -807 1.690441e+08 4.792658e-01 -808 1.706082e+08 4.782840e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.772537e-01 -810 1.737801e+08 4.761787e-01 -811 1.753881e+08 4.750630e-01 -812 1.770109e+08 4.739111e-01 -813 1.786488e+08 4.727279e-01 -814 1.803018e+08 4.715182e-01 -815 1.819701e+08 4.702874e-01 -816 1.836538e+08 4.690411e-01 -817 1.853532e+08 4.677849e-01 -818 1.870682e+08 4.665249e-01 -819 1.887991e+08 4.652670e-01 -820 1.905461e+08 4.640175e-01 -821 1.923092e+08 4.627826e-01 -822 1.940886e+08 4.615686e-01 -823 1.958845e+08 4.603820e-01 -824 1.976970e+08 4.592292e-01 -825 1.995262e+08 4.581163e-01 -826 2.013724e+08 4.570498e-01 -827 2.032357e+08 4.560358e-01 -828 2.051162e+08 4.550804e-01 -829 2.070141e+08 4.541895e-01 -830 2.089296e+08 4.533689e-01 -831 2.108628e+08 4.526241e-01 -832 2.128139e+08 4.519605e-01 -833 2.147830e+08 4.513831e-01 -834 2.167704e+08 4.508966e-01 -835 2.187762e+08 4.505055e-01 -836 2.208005e+08 4.502138e-01 -837 2.228435e+08 4.500252e-01 -838 2.249055e+08 4.499429e-01 -839 2.269865e+08 4.499694e-01 -840 2.290868e+08 4.501071e-01 -841 2.312065e+08 4.503574e-01 -842 2.333458e+08 4.507213e-01 -843 2.355049e+08 4.511987e-01 -844 2.376840e+08 4.517892e-01 -845 2.398833e+08 4.524912e-01 -846 2.421029e+08 4.533022e-01 -847 2.443431e+08 4.542187e-01 -848 2.466039e+08 4.552362e-01 -849 2.488857e+08 4.563488e-01 -850 2.511886e+08 4.575495e-01 -851 2.535129e+08 4.588298e-01 -852 2.558586e+08 4.601800e-01 -853 2.582260e+08 4.615887e-01 -854 2.606154e+08 4.630432e-01 -855 2.630268e+08 4.645291e-01 -856 2.654606e+08 4.660308e-01 -857 2.679168e+08 4.675311e-01 -858 2.703958e+08 4.690115e-01 -859 2.728978e+08 4.704523e-01 -860 2.754229e+08 4.718331e-01 -861 2.779713e+08 4.731326e-01 -862 2.805434e+08 4.743293e-01 -863 2.831392e+08 4.754017e-01 -864 2.857591e+08 4.763290e-01 -865 2.884032e+08 4.770913e-01 -866 2.910717e+08 4.776702e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.780497e-01 -868 2.964831e+08 4.782161e-01 -869 2.992265e+08 4.781592e-01 -870 3.019952e+08 4.778720e-01 -871 3.047895e+08 4.773518e-01 -872 3.076097e+08 4.766002e-01 -873 3.104560e+08 4.756229e-01 -874 3.133286e+08 4.744302e-01 -875 3.162278e+08 4.730368e-01 -876 3.191538e+08 4.714613e-01 -877 3.221069e+08 4.697262e-01 -878 3.250873e+08 4.678571e-01 -879 3.280953e+08 4.658825e-01 -880 3.311311e+08 4.638330e-01 -881 3.341950e+08 4.617408e-01 -882 3.372873e+08 4.596391e-01 -883 3.404082e+08 4.575612e-01 -884 3.435579e+08 4.555405e-01 -885 3.467369e+08 4.536097e-01 -886 3.499452e+08 4.518000e-01 -887 3.531832e+08 4.501415e-01 -888 3.564511e+08 4.486620e-01 -889 3.597493e+08 4.473870e-01 -890 3.630781e+08 4.463398e-01 -891 3.664376e+08 4.455404e-01 -892 3.698282e+08 4.450059e-01 -893 3.732502e+08 4.447500e-01 -894 3.767038e+08 4.447825e-01 -895 3.801894e+08 4.451091e-01 -896 3.837072e+08 4.457311e-01 -897 3.872576e+08 4.466447e-01 -898 3.908409e+08 4.478408e-01 -899 3.944573e+08 4.493041e-01 -900 3.981072e+08 4.510129e-01 -901 4.017908e+08 4.529386e-01 -902 4.055085e+08 4.550450e-01 -903 4.092607e+08 4.572884e-01 -904 4.130475e+08 4.596175e-01 -905 4.168694e+08 4.619737e-01 -906 4.207266e+08 4.642922e-01 -907 4.246196e+08 4.665030e-01 -908 4.285485e+08 4.685334e-01 -909 4.325138e+08 4.703103e-01 -910 4.365158e+08 4.717635e-01 -911 4.405549e+08 4.728297e-01 -912 4.446313e+08 4.734556e-01 -913 4.487454e+08 4.736024e-01 -914 4.528976e+08 4.732482e-01 -915 4.570882e+08 4.723906e-01 -916 4.613176e+08 4.710477e-01 -917 4.655861e+08 4.692581e-01 -918 4.698941e+08 4.670786e-01 -919 4.742420e+08 4.645824e-01 -920 4.786301e+08 4.618550e-01 -921 4.830588e+08 4.589904e-01 -922 4.875285e+08 4.560871e-01 -923 4.920395e+08 4.532438e-01 -924 4.965923e+08 4.505565e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.481150e-01 -926 5.058247e+08 4.460013e-01 -927 5.105050e+08 4.442869e-01 -928 5.152286e+08 4.430323e-01 -929 5.199960e+08 4.422851e-01 -930 5.248075e+08 4.420790e-01 -931 5.296634e+08 4.424328e-01 -932 5.345644e+08 4.433488e-01 -933 5.395106e+08 4.448112e-01 -934 5.445027e+08 4.467839e-01 -935 5.495409e+08 4.492091e-01 -936 5.546257e+08 4.520057e-01 -937 5.597576e+08 4.550676e-01 -938 5.649370e+08 4.582650e-01 -939 5.701643e+08 4.614465e-01 -940 5.754399e+08 4.644445e-01 -941 5.807644e+08 4.670839e-01 -942 5.861382e+08 4.691939e-01 -943 5.915616e+08 4.706228e-01 -944 5.970353e+08 4.712531e-01 -945 6.025596e+08 4.710158e-01 -946 6.081350e+08 4.699004e-01 -947 6.137620e+08 4.679586e-01 -948 6.194411e+08 4.653016e-01 -949 6.251727e+08 4.620905e-01 -950 6.309573e+08 4.585220e-01 -951 6.367955e+08 4.548124e-01 -952 6.426877e+08 4.511816e-01 -953 6.486344e+08 4.478394e-01 -954 6.546362e+08 4.449751e-01 -955 6.606934e+08 4.427498e-01 -956 6.668068e+08 4.412913e-01 -957 6.729767e+08 4.406904e-01 -958 6.792036e+08 4.409978e-01 -959 6.854882e+08 4.422203e-01 -960 6.918310e+08 4.443166e-01 -961 6.982324e+08 4.471920e-01 -962 7.046931e+08 4.506940e-01 -963 7.112135e+08 4.546093e-01 -964 7.177943e+08 4.586668e-01 -965 7.244360e+08 4.625482e-01 -966 7.311391e+08 4.659103e-01 -967 7.379042e+08 4.684200e-01 -968 7.447320e+08 4.697977e-01 -969 7.516229e+08 4.698629e-01 -970 7.585776e+08 4.685685e-01 -971 7.655966e+08 4.660159e-01 -972 7.726806e+08 4.624441e-01 -973 7.798301e+08 4.581963e-01 -974 7.870458e+08 4.536740e-01 -975 7.943282e+08 4.492900e-01 -976 8.016781e+08 4.454286e-01 -977 8.090959e+08 4.424178e-01 -978 8.165824e+08 4.405120e-01 -979 8.241381e+08 4.398816e-01 -980 8.317638e+08 4.406056e-01 -981 8.394600e+08 4.426634e-01 -982 8.472274e+08 4.459243e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.501367e-01 -984 8.629785e+08 4.549226e-01 -985 8.709636e+08 4.597859e-01 -986 8.790225e+08 4.641485e-01 -987 8.871560e+08 4.674199e-01 -988 8.953648e+08 4.690988e-01 -989 9.036495e+08 4.688830e-01 -990 9.120108e+08 4.667507e-01 -991 9.204496e+08 4.629790e-01 -992 9.289664e+08 4.580904e-01 -993 9.375620e+08 4.527502e-01 -994 9.462372e+08 4.476515e-01 -995 9.549926e+08 4.434210e-01 -996 9.638290e+08 4.405586e-01 -997 9.727472e+08 4.394051e-01 -998 9.817479e+08 4.401244e-01 -999 9.908319e+08 4.426886e-01 -1000 1.000000e+09 4.468580e-01 - -CPU time since last call: 0.039 seconds. - -Total CPU time: 0.039 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4781.929688 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 772.000 kB. -Shared ngspice pages = 528.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec deleted file mode 100644 index 5065030..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901019_V12 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec deleted file mode 100644 index dbe20a2..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/TP_AWG_24_ESCC_3901019_V12_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901019_V12_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/analytic_solution.dat_reference deleted file mode 100644 index d25dd66..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49908086104823862 -2.8135687607499507E-003 - 100926.21909870484 0.49908048273519395 -2.8395304008927915E-003 - 101861.01701559752 0.49908009763583955 -2.8657298230258749E-003 - 102804.47320933097 0.49907970563313209 -2.8921691577618301E-003 - 103756.66787451849 0.49907930660818162 -2.9188505535876650E-003 - 104717.68194855202 0.49907890044022668 -2.9457761769852500E-003 - 105687.59711848051 0.49907848700661472 -2.9729482125538157E-003 - 106666.49582795388 0.49907806618277639 -3.0003688631276824E-003 - 107654.46128423158 0.49907763784220394 -3.0280403498993986E-003 - 108651.57746525372 0.49907720185642823 -3.0559649125394264E-003 - 109657.92912678099 0.49907675809499596 -3.0841448093168649E-003 - 110673.60180959746 0.49907630642544570 -3.1125823172216131E-003 - 111698.68184678226 0.49907584671328648 -3.1412797320836648E-003 - 112733.25637104872 0.49907537882197367 -3.1702393686964718E-003 - 113777.41332214902 0.49907490261288762 -3.1994635609355481E-003 - 114831.24145435111 0.49907441794530960 -3.2289546618824725E-003 - 115894.83034398119 0.49907392467640016 -3.2587150439435859E-003 - 116968.27039703846 0.49907342266117666 -3.2887470989729100E-003 - 118051.65285688055 0.49907291175248991 -3.3190532383926144E-003 - 119145.06981197748 0.49907239180100355 -3.3496358933142924E-003 - 120248.61420374122 0.49907186265517051 -3.3804975146606987E-003 - 121362.37983442418 0.49907132416121341 -3.4116405732862241E-003 - 122486.46137509307 0.49907077616309931 -3.4430675600981317E-003 - 123620.95437367691 0.49907021850252248 -3.4747809861779555E-003 - 124765.95526308684 0.49906965101888018 -3.5067833829022172E-003 - 125921.56136941510 0.49906907354925373 -3.5390773020635541E-003 - 127087.87092020595 0.49906848592838660 -3.5716653159910852E-003 - 128264.98305280598 0.49906788798866530 -3.6045500176714778E-003 - 129452.99782279160 0.49906727956009844 -3.6377340208696434E-003 - 130652.01621247199 0.49906666047029896 -3.6712199602492940E-003 - 131862.14013947485 0.49906603054446269 -3.7050104914927548E-003 - 133083.47246540760 0.49906538960535163 -3.7391082914223525E-003 - 134316.11700460155 0.49906473747327523 -3.7735160581196044E-003 - 135560.17853293690 0.49906407396607211 -3.8082365110460132E-003 - 136815.76279674706 0.49906339889909301 -3.8432723911623651E-003 - 138082.97652180924 0.49906271208518560 -3.8786264610492375E-003 - 139361.92742241436 0.49906201333467637 -3.9143015050261496E-003 - 140652.72421052365 0.49906130245535640 -3.9503003292719703E-003 - 141955.47660501016 0.49906057925246688 -3.9866257619431082E-003 - 143270.29534098294 0.49905984352868371 -4.0232806532945649E-003 - 144597.29217920196 0.49905909508410579 -4.0602678757975649E-003 - 145936.57991557577 0.49905833371624087 -4.0975903242602835E-003 - 147288.27239075018 0.49905755921999517 -4.1352509159459459E-003 - 148652.48449978570 0.49905677138766136 -4.1732525906923888E-003 - 150029.33220192167 0.49905597000890956 -4.2115983110310052E-003 - 151418.93253043521 0.49905515487077634 -4.2502910623054193E-003 - 152821.40360258709 0.49905432575765962 -4.2893338527916205E-003 - 154236.86462966274 0.49905348245130832 -4.3287297138152152E-003 - 155665.43592710621 0.49905262473081846 -4.3684816998721728E-003 - 157107.23892474489 0.49905175237262700 -4.4085928887468559E-003 - 158562.39617711373 0.49905086515050817 -4.4490663816315994E-003 - 160031.03137387018 0.49904996283557146 -4.4899053032460244E-003 - 161513.26935030895 0.49904904519625942 -4.5311128019565623E-003 - 163009.23609797412 0.49904811199834781 -4.5726920498962024E-003 - 164519.05877536608 0.49904716300494745 -4.6146462430843582E-003 - 166042.86571875296 0.49904619797650523 -4.6569786015467551E-003 - 167580.78645307687 0.49904521667081020 -4.6996923694369456E-003 - 169132.95170296470 0.49904421884299693 -4.7427908151559716E-003 - 170699.49340384078 0.49904320424555493 -4.7862772314748604E-003 - 172280.54471313921 0.49904217262833500 -4.8301549356558659E-003 - 173876.24002162504 0.49904112373856174 -4.8744272695752325E-003 - 175486.71496481521 0.49904005732084411 -4.9190975998460815E-003 - 177112.10643450869 0.49903897311718959 -4.9641693179425378E-003 - 178752.55259042355 0.49903787086702023 -5.0096458403237855E-003 - 180408.19287193808 0.49903675030719025 -5.0555306085601770E-003 - 182079.16800994624 0.49903561117200507 -5.1018270894591169E-003 - 183765.62003881723 0.49903445319324324 -5.1485387751929032E-003 - 185467.69230846976 0.49903327610017889 -5.1956691834268371E-003 - 187185.52949655792 0.49903207961960960 -5.2432218574495395E-003 - 188919.27762076643 0.49903086347588244 -5.2912003663044020E-003 - 190669.08405122519 0.49902962739092432 -5.3396083049209201E-003 - 192435.09752303324 0.49902837108427484 -5.3884492942506074E-003 - 194217.46814890244 0.49902709427312159 -5.4377269814018161E-003 - 196016.34743191858 0.49902579667233493 -5.4874450397778430E-003 - 197831.88827841621 0.49902447799451133 -5.5376071692170509E-003 - 199664.24501097933 0.49902313795001235 -5.5882170961340820E-003 - 201513.57338155585 0.49902177624701094 -5.6392785736646862E-003 - 203380.03058469799 0.49902039259153846 -5.6907953818117214E-003 - 205263.77527092522 0.49901898668753547 -5.7427713275947801E-003 - 207164.96756020669 0.49901755823690319 -5.7952102452019294E-003 - 209083.76905557499 0.49901610693956111 -5.8481159961444084E-003 - 211020.34285685964 0.49901463249350431 -5.9014924694151460E-003 - 212974.85357455187 0.49901313459486596 -5.9553435816494847E-003 - 214947.46734379805 0.49901161293798019 -6.0096732772903956E-003 - 216938.35183851823 0.49901006721545205 -6.0644855287566067E-003 - 218947.67628566208 0.49900849711822604 -6.1197843366159205E-003 - 220975.61147959033 0.49900690233566153 -6.1755737297607173E-003 - 223022.32979659364 0.49900528255560850 -6.2318577655897265E-003 - 225088.00520954619 0.49900363746448873 -6.2886405301934567E-003 - 227172.81330269075 0.49900196674737829 -6.3459261385448882E-003 - 229276.93128656488 0.49900027008809528 -6.4037187346947522E-003 - 231400.53801306541 0.49899854716928943 -6.4620224919726358E-003 - 233543.81399064770 0.49899679767253557 -6.5208416131939933E-003 - 235706.94139967277 0.49899502127843043 -6.5801803308725227E-003 - 237890.10410788958 0.49899321766669374 -6.6400429074384487E-003 - 240093.48768606517 0.49899138651627040 -6.7004336354644896E-003 - 242317.27942376008 0.49898952750543957 -6.7613568378979841E-003 - 244561.66834524440 0.49898764031192372 -6.8228168682993246E-003 - 246826.84522556924 0.49898572461300406 -6.8848181110894770E-003 - 249113.00260677910 0.49898378008563787 -6.9473649818038944E-003 - 251420.33481427966 0.49898180640657858 -7.0104619273547129E-003 - 253749.03797335716 0.49897980325250274 -7.0741134263020188E-003 - 256099.31002584568 0.49897777030013613 -7.1383239891333935E-003 - 258471.35074695636 0.49897570722638634 -7.2030981585524661E-003 - 260865.36176225505 0.49897361370847759 -7.2684405097767097E-003 - 263281.54656480200 0.49897148942408975 -7.3343556508459317E-003 - 265720.11053245066 0.49896933405149962 -7.4008482229402641E-003 - 268181.26094530127 0.49896714726972641 -7.4679229007082407E-003 - 270665.20700332412 0.49896492875868015 -7.5355843926073664E-003 - 273172.15984413790 0.49896267819931461 -7.6038374412541170E-003 - 275702.33256095828 0.49896039527378050 -7.6726868237869004E-003 - 278255.94022071257 0.49895807966558514 -7.7421373522406182E-003 - 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0.44741026127336492 1.0486248014183417 - 253164847.86313581 0.44953406102678944 1.0018608222920566 - 255509709.03525123 0.45177882104935901 0.95419128873811487 - 257876288.75937983 0.45412846669910623 0.90557679439157635 - 260264788.19690046 0.45656419395231068 0.85598044205296564 - 262675410.37238383 0.45906433441768130 0.80536864081016935 - 265108360.19085416 0.46160427120074560 0.75371198768057435 - 267563844.45520508 0.46415642448201039 0.70098622390206344 - 270042071.88377696 0.46669032751357975 0.64717324897259265 - 272543253.12810278 0.46917281453400050 0.59226216728356840 - 275067600.79080677 0.47156834132753667 0.53625033301871350 - 277615329.44368041 0.47383945626587359 0.47914434944767265 - 280186655.64592010 0.47594743417991581 0.42096096966499996 - 282781797.96253383 0.47785307700304541 0.36172783830824967 - 285400976.98292375 0.47951767380072402 0.30148400914869206 - 288044415.33962977 0.48090409899578501 0.24028017307754698 - 290712337.72725815 0.48197801229887527 0.17817853617616983 - 293404970.92157930 0.48270910860377969 0.11525229914361793 - 296122543.79880315 0.48307235290648864 5.1584707567431866E-002 - 298865287.35503829 0.48304912635723612 -1.2732333328652978E-002 - 301633434.72591972 0.48262820688436997 -7.7600057456159721E-002 - 304427221.20643061 0.48180651284751619 -0.14291499821753614 - 307246884.27090096 0.48058955127094355 -0.20857143032802455 - 310092663.59319234 0.47899153249242199 -0.27446399002979227 - 312964801.06707507 0.47703513839567563 -0.34049035593455623 - 315863540.82678193 0.47475095867838357 -0.40655386834015234 - 318789129.26776493 0.47217663533498583 -0.47256597139786877 - 321741815.06763780 0.46935577644326487 -0.53844837903822251 - 324721849.20731252 0.46633671402098564 -0.60413488982302233 - 327729484.99233818 0.46317118598791063 -0.66957280469450398 - 330764978.07442427 0.45991301929246736 -0.73472393143247650 - 333828586.47317642 0.45661688135628919 -0.79956518726769010 - 336920570.59802741 0.45333715222890519 -0.86408883400778946 - 340041193.27037024 0.45012695259012570 -0.92830239666001946 - 343190719.74590427 0.44703734520260047 -0.99222832632631452 - 346369417.73717344 0.44411671135676067 -1.0559034714003033 - 349577557.43632787 0.44141029040852953 -1.1193784187144749 - 352815411.53808904 0.43895986021224864 -1.1827167594805652 - 356083255.26292741 0.43680352910190207 -1.2459943249121816 - 359381366.38046259 0.43497560571195104 -1.3092984244473695 - 362710025.23306483 0.43350651079495001 -1.3727271063765085 - 366069514.75969058 0.43242269467852851 -1.4363884470014490 - 369460120.51993102 0.43174652457427243 -1.5003998604784190 - 372882130.71828300 0.43149610723335702 -1.5648874072679186 - 376335836.22865325 0.43168501429637651 -1.6299850645041734 - 379821530.61907363 0.43232188024907248 -1.6958339064335171 - 383339510.17666054 0.43340984664497784 -1.7625811272812222 - 386890073.93279833 0.43494583204228687 -1.8303788226839828 - 390473523.68855560 0.43691961619039660 -1.8993824298789137 - 394090164.04034477 0.43931274106744567 -1.9697487126717430 - 397740302.40580368 0.44209725241154740 -2.0416331674645782 - 401424249.04993260 0.44523433546966651 -2.1151867254569892 - 405142317.11146557 0.44867293941102765 -2.1905516394470390 - 408894822.62948561 0.45234853643663703 -2.2678564790921030 - 412682084.57029516 0.45618222152411364 -2.3472102247693361 - 416504424.85451853 0.46008041993580651 -2.4286955554673351 - 420362168.38447183 0.46393551885054801 -2.5123615749825685 - 424255643.07177860 0.46762775659582484 -2.5982164094075517 - 428185179.86524069 0.47102866256703585 -2.6862203201243897 - 432151112.77897620 0.47400621812305399 -2.7762801746760379 - 436153778.92080057 0.47643168965635635 -2.8682462488412837 - 440193518.52088791 0.47818778044891536 -2.9619123320277780 - 444270674.96068919 0.47917740471029063 -3.0570199171195460 - 448385594.80211818 0.47933208880635297 3.1299184559015627 - 452538627.81701666 0.47861885313722435 3.0328650663093910 - 456730127.01687467 0.47704450752479161 2.9353525622019192 - 460960448.68284386 0.47465662759784327 2.8377244964418433 - 465229952.39601988 0.47154100911731150 2.7403022515445579 - 469539001.06800532 0.46781598772500860 2.6433683200534848 - 473887960.97176510 0.46362450390024773 2.5471527342789835 - 478277201.77274853 0.45912506370036982 2.4518235651829494 - 482707096.56031883 0.45448275145442152 2.3574817527645915 - 487178021.87946409 0.44986123194641142 2.2641599381617032 - 491690357.76280212 0.44541633227903044 2.1718245501945730 - 496244487.76289135 0.44129142335901089 2.0803801979531156 - 500840798.98482126 0.43761450830644116 1.9896754178324687 - 505479682.11912459 0.43449671006284907 1.8995089641370255 - 510161531.47498441 0.43203173620663105 1.8096360541899097 - 514886745.01374871 0.43029586556881666 1.7197742292993121 - 519655724.38276571 0.42934802075116119 1.6296087382475206 - 524468874.94951189 0.42922953833506228 1.5387975751025298 - 529326605.83605665 0.42996330910398661 1.4469765064008968 - 534229329.95383632 0.43155203057580693 1.3537646084050377 - 539177464.03874946 0.43397540256784151 1.2587710053311787 - 544171428.68658876 0.43718622429274345 1.1616036453654739 - 549211648.38877892 0.44110554926764767 1.0618810434095554 - 554298551.56846750 0.44561735631622373 0.95924789754080286 - 559432570.61693895 0.45056362406740191 0.85339525252930382 - 564614141.93036616 0.45574123570959651 0.74408530950474017 - 569843705.94691360 0.46090269072542689 0.63117994013023460 - 575121707.18416142 0.46576293503340427 0.51467041363185828 - 580448594.27689838 0.47001438452707528 0.39470395380288348 - 585824820.01525474 0.47335102516216443 0.27160101962143757 - 591250841.38318694 0.47550016680390544 0.14585651117969975 - 596727119.59733105 0.47625741281120987 1.8119401744409867E-002 - 602254120.14619279 0.47551781198240795 -0.11085093662242507 - 607832312.82972360 0.47329548159457385 -0.24024785595047046 - 613462171.79925191 0.46972618395130405 -0.36929063013625796 - 619144175.59778345 0.46505192363206349 -0.49729528450376065 - 624878807.20068884 0.45959168795317834 -0.62373145231392568 - 630666554.05674052 0.45370573489746119 -0.74825798904984675 - 636507908.12955773 0.44776117048156472 -0.87073590046340166 - 642403365.93942034 0.44210439260462642 -0.99122212108101759 - 648353428.60547137 0.43704275997366948 -1.1099503865271414 - 654358601.88832295 0.43283498934312675 -1.2273057400986302 - 660419396.23303056 0.42968802421754088 -1.3437978432897562 - 666536326.81249201 0.42775747653363511 -1.4600361707340272 - 672709913.57123506 0.42714886400126167 -1.5767080623621716 - 678940681.26960981 0.42791735468572617 -1.6945588058306864 - 685229159.52840579 0.43006434276769007 -1.8143714793833901 - 691575882.87385249 0.43352987476067401 -1.9369431451115597 - 697981390.78306675 0.43818086841263565 -2.0630531641902619 - 704446227.72990513 0.44379648860192034 -2.1934191630515065 - 710970943.23124242 0.45005423436271841 -2.3286371311035414 - 717556091.89369214 0.45652322791892874 -2.4691052621888727 - 724202233.46073151 0.46267407617741863 -2.6149374588414238 - 730909932.86029184 0.46791541854449864 -2.7658818914786281 - 737679760.25277460 0.47166279415225559 -2.9212700312365079 - 744512291.07951283 0.47343376213861488 -3.0800259785471695 - 751408106.11169624 0.47294713501111507 3.0424281931349424 - 758367791.49971902 0.47019320945806742 2.8812626601903766 - 765391938.82301557 0.46544679027448921 2.7211396692705829 - 772481145.14034164 0.45921684026621062 2.5632707279795257 - 779636013.04052210 0.45215288339194959 2.4084594407386586 - 786857150.69368434 0.44494198505203486 2.2570405222467094 - 794145171.90293396 0.43822518437374719 2.1088924935384226 - 801500696.15654135 0.43254628864410050 1.9634978878000240 - 808924348.68059552 0.42833060051221755 1.8200224120654727 - 816416760.49214554 0.42588280138039070 1.6773927731282339 - 823978568.45285118 0.42539166448167792 1.5343643648113585 - 831610415.32309616 0.42693145986185854 1.3895801248345219 - 839312949.81663728 0.43045331557190841 1.2416293006754744 - 847086826.65574193 0.43576368428129847 1.0891198590542635 - 854932706.62683666 0.44249231735397498 0.93078060435671151 - 862851256.63668871 0.45006036528249971 0.76560647330010190 - 870843149.76907241 0.45767078684283441 0.59304810515256345 - 878909065.34199631 0.46435379651235725 0.41321953552254653 - 887049688.96544206 0.46909724968408256 0.22705817658196836 - 895265712.59963822 0.47106005385820376 3.6340460441800129E-002 - 903557834.61389208 0.46980772226218781 -0.15652615844693635 - 911926759.84592986 0.46546338443014690 -0.34892588858079987 - 920373199.66182303 0.45869040747213480 -0.53854544346227828 - 928897872.01645172 0.45051480327950261 -0.72379248161911836 - 937501501.51452708 0.44208132992451832 -0.90399982718674954 - 946184819.47219920 0.43444761395962472 -1.0794115673706270 - 954948563.97919667 0.42846694929211687 -1.2510317559553519 - 963793479.96157956 0.42475111314677538 -1.4204293084874335 - 972720319.24505568 0.42367577536127138 -1.5895579982411387 - 981729840.61888206 0.42539065369786416 -1.7606063749040042 - 990822809.90037870 0.42980854980598687 -1.9358586916722607 - 1000000000.0000000 0.43656254887683138 -2.1175273245205557 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/result_comparison.dat_reference deleted file mode 100644 index b383217..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00253688 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/spice_solution.dat_reference deleted file mode 100644 index b16fa49..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 11:58:22 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.994004e-01 -1 1.009253e+05 4.994004e-01 -2 1.018591e+05 4.994004e-01 -3 1.028016e+05 4.994004e-01 -4 1.037528e+05 4.994004e-01 -5 1.047129e+05 4.994004e-01 -6 1.056818e+05 4.994004e-01 -7 1.066596e+05 4.994004e-01 -8 1.076465e+05 4.994003e-01 -9 1.086426e+05 4.994003e-01 -10 1.096478e+05 4.994003e-01 -11 1.106624e+05 4.994003e-01 -12 1.116863e+05 4.994003e-01 -13 1.127197e+05 4.994003e-01 -14 1.137627e+05 4.994003e-01 -15 1.148154e+05 4.994003e-01 -16 1.158777e+05 4.994003e-01 -17 1.169499e+05 4.994002e-01 -18 1.180321e+05 4.994002e-01 -19 1.191242e+05 4.994002e-01 -20 1.202264e+05 4.994002e-01 -21 1.213389e+05 4.994002e-01 -22 1.224616e+05 4.994002e-01 -23 1.235947e+05 4.994002e-01 -24 1.247384e+05 4.994002e-01 -25 1.258925e+05 4.994001e-01 -26 1.270574e+05 4.994001e-01 -27 1.282331e+05 4.994001e-01 -28 1.294196e+05 4.994001e-01 -29 1.306171e+05 4.994001e-01 -30 1.318257e+05 4.994001e-01 -31 1.330454e+05 4.994000e-01 -32 1.342765e+05 4.994000e-01 -33 1.355189e+05 4.994000e-01 -34 1.367729e+05 4.994000e-01 -35 1.380384e+05 4.994000e-01 -36 1.393157e+05 4.994000e-01 -37 1.406048e+05 4.993999e-01 -38 1.419058e+05 4.993999e-01 -39 1.432188e+05 4.993999e-01 -40 1.445440e+05 4.993999e-01 -41 1.458814e+05 4.993999e-01 -42 1.472313e+05 4.993999e-01 -43 1.485936e+05 4.993998e-01 -44 1.499685e+05 4.993998e-01 -45 1.513561e+05 4.993998e-01 -46 1.527566e+05 4.993998e-01 -47 1.541700e+05 4.993997e-01 -48 1.555966e+05 4.993997e-01 -49 1.570363e+05 4.993997e-01 -50 1.584893e+05 4.993997e-01 -51 1.599558e+05 4.993997e-01 -52 1.614359e+05 4.993996e-01 -53 1.629296e+05 4.993996e-01 -54 1.644372e+05 4.993996e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.993996e-01 -56 1.674943e+05 4.993995e-01 -57 1.690441e+05 4.993995e-01 -58 1.706082e+05 4.993995e-01 -59 1.721869e+05 4.993995e-01 -60 1.737801e+05 4.993994e-01 -61 1.753881e+05 4.993994e-01 -62 1.770109e+05 4.993994e-01 -63 1.786488e+05 4.993994e-01 -64 1.803018e+05 4.993993e-01 -65 1.819701e+05 4.993993e-01 -66 1.836538e+05 4.993993e-01 -67 1.853532e+05 4.993992e-01 -68 1.870682e+05 4.993992e-01 -69 1.887991e+05 4.993992e-01 -70 1.905461e+05 4.993991e-01 -71 1.923092e+05 4.993991e-01 -72 1.940886e+05 4.993991e-01 -73 1.958845e+05 4.993990e-01 -74 1.976970e+05 4.993990e-01 -75 1.995262e+05 4.993990e-01 -76 2.013724e+05 4.993989e-01 -77 2.032357e+05 4.993989e-01 -78 2.051162e+05 4.993989e-01 -79 2.070141e+05 4.993988e-01 -80 2.089296e+05 4.993988e-01 -81 2.108628e+05 4.993987e-01 -82 2.128139e+05 4.993987e-01 -83 2.147830e+05 4.993987e-01 -84 2.167704e+05 4.993986e-01 -85 2.187762e+05 4.993986e-01 -86 2.208005e+05 4.993985e-01 -87 2.228435e+05 4.993985e-01 -88 2.249055e+05 4.993984e-01 -89 2.269865e+05 4.993984e-01 -90 2.290868e+05 4.993983e-01 -91 2.312065e+05 4.993983e-01 -92 2.333458e+05 4.993982e-01 -93 2.355049e+05 4.993982e-01 -94 2.376840e+05 4.993981e-01 -95 2.398833e+05 4.993981e-01 -96 2.421029e+05 4.993980e-01 -97 2.443431e+05 4.993980e-01 -98 2.466039e+05 4.993979e-01 -99 2.488857e+05 4.993979e-01 -100 2.511886e+05 4.993978e-01 -101 2.535129e+05 4.993978e-01 -102 2.558586e+05 4.993977e-01 -103 2.582260e+05 4.993976e-01 -104 2.606154e+05 4.993976e-01 -105 2.630268e+05 4.993975e-01 -106 2.654606e+05 4.993975e-01 -107 2.679168e+05 4.993974e-01 -108 2.703958e+05 4.993973e-01 -109 2.728978e+05 4.993973e-01 -110 2.754229e+05 4.993972e-01 -111 2.779713e+05 4.993971e-01 -112 2.805434e+05 4.993971e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.993970e-01 -114 2.857591e+05 4.993969e-01 -115 2.884032e+05 4.993968e-01 -116 2.910717e+05 4.993968e-01 -117 2.937650e+05 4.993967e-01 -118 2.964831e+05 4.993966e-01 -119 2.992265e+05 4.993965e-01 -120 3.019952e+05 4.993964e-01 -121 3.047895e+05 4.993964e-01 -122 3.076097e+05 4.993963e-01 -123 3.104560e+05 4.993962e-01 -124 3.133286e+05 4.993961e-01 -125 3.162278e+05 4.993960e-01 -126 3.191538e+05 4.993959e-01 -127 3.221069e+05 4.993958e-01 -128 3.250873e+05 4.993957e-01 -129 3.280953e+05 4.993956e-01 -130 3.311311e+05 4.993955e-01 -131 3.341950e+05 4.993954e-01 -132 3.372873e+05 4.993953e-01 -133 3.404082e+05 4.993952e-01 -134 3.435579e+05 4.993951e-01 -135 3.467369e+05 4.993950e-01 -136 3.499452e+05 4.993949e-01 -137 3.531832e+05 4.993948e-01 -138 3.564511e+05 4.993947e-01 -139 3.597493e+05 4.993946e-01 -140 3.630781e+05 4.993945e-01 -141 3.664376e+05 4.993943e-01 -142 3.698282e+05 4.993942e-01 -143 3.732502e+05 4.993941e-01 -144 3.767038e+05 4.993940e-01 -145 3.801894e+05 4.993938e-01 -146 3.837072e+05 4.993937e-01 -147 3.872576e+05 4.993936e-01 -148 3.908409e+05 4.993934e-01 -149 3.944573e+05 4.993933e-01 -150 3.981072e+05 4.993931e-01 -151 4.017908e+05 4.993930e-01 -152 4.055085e+05 4.993929e-01 -153 4.092607e+05 4.993927e-01 -154 4.130475e+05 4.993926e-01 -155 4.168694e+05 4.993924e-01 -156 4.207266e+05 4.993922e-01 -157 4.246196e+05 4.993921e-01 -158 4.285485e+05 4.993919e-01 -159 4.325138e+05 4.993917e-01 -160 4.365158e+05 4.993916e-01 -161 4.405549e+05 4.993914e-01 -162 4.446313e+05 4.993912e-01 -163 4.487454e+05 4.993910e-01 -164 4.528976e+05 4.993909e-01 -165 4.570882e+05 4.993907e-01 -166 4.613176e+05 4.993905e-01 -167 4.655861e+05 4.993903e-01 -168 4.698941e+05 4.993901e-01 -169 4.742420e+05 4.993899e-01 -170 4.786301e+05 4.993897e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.993895e-01 -172 4.875285e+05 4.993893e-01 -173 4.920395e+05 4.993891e-01 -174 4.965923e+05 4.993888e-01 -175 5.011872e+05 4.993886e-01 -176 5.058247e+05 4.993884e-01 -177 5.105050e+05 4.993881e-01 -178 5.152286e+05 4.993879e-01 -179 5.199960e+05 4.993877e-01 -180 5.248075e+05 4.993874e-01 -181 5.296634e+05 4.993872e-01 -182 5.345644e+05 4.993869e-01 -183 5.395106e+05 4.993867e-01 -184 5.445027e+05 4.993864e-01 -185 5.495409e+05 4.993861e-01 -186 5.546257e+05 4.993858e-01 -187 5.597576e+05 4.993856e-01 -188 5.649370e+05 4.993853e-01 -189 5.701643e+05 4.993850e-01 -190 5.754399e+05 4.993847e-01 -191 5.807644e+05 4.993844e-01 -192 5.861382e+05 4.993841e-01 -193 5.915616e+05 4.993838e-01 -194 5.970353e+05 4.993835e-01 -195 6.025596e+05 4.993831e-01 -196 6.081350e+05 4.993828e-01 -197 6.137620e+05 4.993825e-01 -198 6.194411e+05 4.993821e-01 -199 6.251727e+05 4.993818e-01 -200 6.309573e+05 4.993814e-01 -201 6.367955e+05 4.993811e-01 -202 6.426877e+05 4.993807e-01 -203 6.486344e+05 4.993803e-01 -204 6.546362e+05 4.993799e-01 -205 6.606934e+05 4.993795e-01 -206 6.668068e+05 4.993791e-01 -207 6.729767e+05 4.993787e-01 -208 6.792036e+05 4.993783e-01 -209 6.854882e+05 4.993779e-01 -210 6.918310e+05 4.993775e-01 -211 6.982324e+05 4.993770e-01 -212 7.046931e+05 4.993766e-01 -213 7.112135e+05 4.993761e-01 -214 7.177943e+05 4.993757e-01 -215 7.244360e+05 4.993752e-01 -216 7.311391e+05 4.993747e-01 -217 7.379042e+05 4.993742e-01 -218 7.447320e+05 4.993738e-01 -219 7.516229e+05 4.993732e-01 -220 7.585776e+05 4.993727e-01 -221 7.655966e+05 4.993722e-01 -222 7.726806e+05 4.993717e-01 -223 7.798301e+05 4.993711e-01 -224 7.870458e+05 4.993706e-01 -225 7.943282e+05 4.993700e-01 -226 8.016781e+05 4.993694e-01 -227 8.090959e+05 4.993689e-01 -228 8.165824e+05 4.993683e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.993677e-01 -230 8.317638e+05 4.993670e-01 -231 8.394600e+05 4.993664e-01 -232 8.472274e+05 4.993658e-01 -233 8.550667e+05 4.993651e-01 -234 8.629785e+05 4.993645e-01 -235 8.709636e+05 4.993638e-01 -236 8.790225e+05 4.993631e-01 -237 8.871560e+05 4.993624e-01 -238 8.953648e+05 4.993617e-01 -239 9.036495e+05 4.993609e-01 -240 9.120108e+05 4.993602e-01 -241 9.204496e+05 4.993594e-01 -242 9.289664e+05 4.993587e-01 -243 9.375620e+05 4.993579e-01 -244 9.462372e+05 4.993571e-01 -245 9.549926e+05 4.993563e-01 -246 9.638290e+05 4.993554e-01 -247 9.727472e+05 4.993546e-01 -248 9.817479e+05 4.993537e-01 -249 9.908319e+05 4.993529e-01 -250 1.000000e+06 4.993520e-01 -251 1.009253e+06 4.993511e-01 -252 1.018591e+06 4.993501e-01 -253 1.028016e+06 4.993492e-01 -254 1.037528e+06 4.993482e-01 -255 1.047129e+06 4.993473e-01 -256 1.056818e+06 4.993463e-01 -257 1.066596e+06 4.993452e-01 -258 1.076465e+06 4.993442e-01 -259 1.086426e+06 4.993432e-01 -260 1.096478e+06 4.993421e-01 -261 1.106624e+06 4.993410e-01 -262 1.116863e+06 4.993399e-01 -263 1.127197e+06 4.993388e-01 -264 1.137627e+06 4.993376e-01 -265 1.148154e+06 4.993364e-01 -266 1.158777e+06 4.993352e-01 -267 1.169499e+06 4.993340e-01 -268 1.180321e+06 4.993328e-01 -269 1.191242e+06 4.993315e-01 -270 1.202264e+06 4.993302e-01 -271 1.213389e+06 4.993289e-01 -272 1.224616e+06 4.993276e-01 -273 1.235947e+06 4.993262e-01 -274 1.247384e+06 4.993248e-01 -275 1.258925e+06 4.993234e-01 -276 1.270574e+06 4.993220e-01 -277 1.282331e+06 4.993205e-01 -278 1.294196e+06 4.993190e-01 -279 1.306171e+06 4.993175e-01 -280 1.318257e+06 4.993160e-01 -281 1.330454e+06 4.993144e-01 -282 1.342765e+06 4.993128e-01 -283 1.355189e+06 4.993111e-01 -284 1.367729e+06 4.993095e-01 -285 1.380384e+06 4.993078e-01 -286 1.393157e+06 4.993061e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.993043e-01 -288 1.419058e+06 4.993025e-01 -289 1.432188e+06 4.993007e-01 -290 1.445440e+06 4.992988e-01 -291 1.458814e+06 4.992969e-01 -292 1.472313e+06 4.992950e-01 -293 1.485936e+06 4.992930e-01 -294 1.499685e+06 4.992910e-01 -295 1.513561e+06 4.992890e-01 -296 1.527566e+06 4.992869e-01 -297 1.541700e+06 4.992848e-01 -298 1.555966e+06 4.992827e-01 -299 1.570363e+06 4.992805e-01 -300 1.584893e+06 4.992782e-01 -301 1.599558e+06 4.992760e-01 -302 1.614359e+06 4.992737e-01 -303 1.629296e+06 4.992713e-01 -304 1.644372e+06 4.992689e-01 -305 1.659587e+06 4.992665e-01 -306 1.674943e+06 4.992640e-01 -307 1.690441e+06 4.992614e-01 -308 1.706082e+06 4.992589e-01 -309 1.721869e+06 4.992562e-01 -310 1.737801e+06 4.992535e-01 -311 1.753881e+06 4.992508e-01 -312 1.770109e+06 4.992480e-01 -313 1.786488e+06 4.992452e-01 -314 1.803018e+06 4.992423e-01 -315 1.819701e+06 4.992394e-01 -316 1.836538e+06 4.992364e-01 -317 1.853532e+06 4.992334e-01 -318 1.870682e+06 4.992303e-01 -319 1.887991e+06 4.992271e-01 -320 1.905461e+06 4.992239e-01 -321 1.923092e+06 4.992206e-01 -322 1.940886e+06 4.992173e-01 -323 1.958845e+06 4.992139e-01 -324 1.976970e+06 4.992104e-01 -325 1.995262e+06 4.992069e-01 -326 2.013724e+06 4.992033e-01 -327 2.032357e+06 4.991997e-01 -328 2.051162e+06 4.991960e-01 -329 2.070141e+06 4.991922e-01 -330 2.089296e+06 4.991883e-01 -331 2.108628e+06 4.991844e-01 -332 2.128139e+06 4.991804e-01 -333 2.147830e+06 4.991763e-01 -334 2.167704e+06 4.991722e-01 -335 2.187762e+06 4.991679e-01 -336 2.208005e+06 4.991636e-01 -337 2.228435e+06 4.991593e-01 -338 2.249055e+06 4.991548e-01 -339 2.269865e+06 4.991503e-01 -340 2.290868e+06 4.991456e-01 -341 2.312065e+06 4.991409e-01 -342 2.333458e+06 4.991361e-01 -343 2.355049e+06 4.991312e-01 -344 2.376840e+06 4.991263e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.991212e-01 -346 2.421029e+06 4.991160e-01 -347 2.443431e+06 4.991108e-01 -348 2.466039e+06 4.991054e-01 -349 2.488857e+06 4.991000e-01 -350 2.511886e+06 4.990945e-01 -351 2.535129e+06 4.990888e-01 -352 2.558586e+06 4.990831e-01 -353 2.582260e+06 4.990772e-01 -354 2.606154e+06 4.990712e-01 -355 2.630268e+06 4.990652e-01 -356 2.654606e+06 4.990590e-01 -357 2.679168e+06 4.990527e-01 -358 2.703958e+06 4.990463e-01 -359 2.728978e+06 4.990398e-01 -360 2.754229e+06 4.990331e-01 -361 2.779713e+06 4.990264e-01 -362 2.805434e+06 4.990195e-01 -363 2.831392e+06 4.990125e-01 -364 2.857591e+06 4.990053e-01 -365 2.884032e+06 4.989981e-01 -366 2.910717e+06 4.989907e-01 -367 2.937650e+06 4.989831e-01 -368 2.964831e+06 4.989755e-01 -369 2.992265e+06 4.989676e-01 -370 3.019952e+06 4.989597e-01 -371 3.047895e+06 4.989516e-01 -372 3.076097e+06 4.989434e-01 -373 3.104560e+06 4.989350e-01 -374 3.133286e+06 4.989264e-01 -375 3.162278e+06 4.989177e-01 -376 3.191538e+06 4.989089e-01 -377 3.221069e+06 4.988998e-01 -378 3.250873e+06 4.988907e-01 -379 3.280953e+06 4.988813e-01 -380 3.311311e+06 4.988718e-01 -381 3.341950e+06 4.988621e-01 -382 3.372873e+06 4.988523e-01 -383 3.404082e+06 4.988422e-01 -384 3.435579e+06 4.988320e-01 -385 3.467369e+06 4.988216e-01 -386 3.499452e+06 4.988110e-01 -387 3.531832e+06 4.988003e-01 -388 3.564511e+06 4.987893e-01 -389 3.597493e+06 4.987781e-01 -390 3.630781e+06 4.987667e-01 -391 3.664376e+06 4.987552e-01 -392 3.698282e+06 4.987434e-01 -393 3.732502e+06 4.987314e-01 -394 3.767038e+06 4.987192e-01 -395 3.801894e+06 4.987068e-01 -396 3.837072e+06 4.986941e-01 -397 3.872576e+06 4.986813e-01 -398 3.908409e+06 4.986682e-01 -399 3.944573e+06 4.986548e-01 -400 3.981072e+06 4.986413e-01 -401 4.017908e+06 4.986274e-01 -402 4.055085e+06 4.986134e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.985991e-01 -404 4.130475e+06 4.985845e-01 -405 4.168694e+06 4.985697e-01 -406 4.207266e+06 4.985546e-01 -407 4.246196e+06 4.985393e-01 -408 4.285485e+06 4.985236e-01 -409 4.325138e+06 4.985077e-01 -410 4.365158e+06 4.984916e-01 -411 4.405549e+06 4.984751e-01 -412 4.446313e+06 4.984583e-01 -413 4.487454e+06 4.984413e-01 -414 4.528976e+06 4.984239e-01 -415 4.570882e+06 4.984063e-01 -416 4.613176e+06 4.983883e-01 -417 4.655861e+06 4.983700e-01 -418 4.698941e+06 4.983514e-01 -419 4.742420e+06 4.983325e-01 -420 4.786301e+06 4.983132e-01 -421 4.830588e+06 4.982936e-01 -422 4.875285e+06 4.982737e-01 -423 4.920395e+06 4.982534e-01 -424 4.965923e+06 4.982328e-01 -425 5.011872e+06 4.982118e-01 -426 5.058247e+06 4.981904e-01 -427 5.105050e+06 4.981687e-01 -428 5.152286e+06 4.981466e-01 -429 5.199960e+06 4.981241e-01 -430 5.248075e+06 4.981012e-01 -431 5.296634e+06 4.980779e-01 -432 5.345644e+06 4.980542e-01 -433 5.395106e+06 4.980301e-01 -434 5.445027e+06 4.980056e-01 -435 5.495409e+06 4.979807e-01 -436 5.546257e+06 4.979553e-01 -437 5.597576e+06 4.979295e-01 -438 5.649370e+06 4.979033e-01 -439 5.701643e+06 4.978766e-01 -440 5.754399e+06 4.978495e-01 -441 5.807644e+06 4.978219e-01 -442 5.861382e+06 4.977938e-01 -443 5.915616e+06 4.977652e-01 -444 5.970353e+06 4.977362e-01 -445 6.025596e+06 4.977067e-01 -446 6.081350e+06 4.976766e-01 -447 6.137620e+06 4.976461e-01 -448 6.194411e+06 4.976150e-01 -449 6.251727e+06 4.975835e-01 -450 6.309573e+06 4.975513e-01 -451 6.367955e+06 4.975187e-01 -452 6.426877e+06 4.974855e-01 -453 6.486344e+06 4.974517e-01 -454 6.546362e+06 4.974174e-01 -455 6.606934e+06 4.973825e-01 -456 6.668068e+06 4.973470e-01 -457 6.729767e+06 4.973110e-01 -458 6.792036e+06 4.972743e-01 -459 6.854882e+06 4.972370e-01 -460 6.918310e+06 4.971991e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.971606e-01 -462 7.046931e+06 4.971214e-01 -463 7.112135e+06 4.970816e-01 -464 7.177943e+06 4.970412e-01 -465 7.244360e+06 4.970000e-01 -466 7.311391e+06 4.969582e-01 -467 7.379042e+06 4.969158e-01 -468 7.447320e+06 4.968726e-01 -469 7.516229e+06 4.968287e-01 -470 7.585776e+06 4.967841e-01 -471 7.655966e+06 4.967388e-01 -472 7.726806e+06 4.966927e-01 -473 7.798301e+06 4.966459e-01 -474 7.870458e+06 4.965984e-01 -475 7.943282e+06 4.965501e-01 -476 8.016781e+06 4.965010e-01 -477 8.090959e+06 4.964511e-01 -478 8.165824e+06 4.964004e-01 -479 8.241381e+06 4.963489e-01 -480 8.317638e+06 4.962966e-01 -481 8.394600e+06 4.962434e-01 -482 8.472274e+06 4.961894e-01 -483 8.550667e+06 4.961346e-01 -484 8.629785e+06 4.960789e-01 -485 8.709636e+06 4.960223e-01 -486 8.790225e+06 4.959648e-01 -487 8.871560e+06 4.959064e-01 -488 8.953648e+06 4.958471e-01 -489 9.036495e+06 4.957869e-01 -490 9.120108e+06 4.957257e-01 -491 9.204496e+06 4.956636e-01 -492 9.289664e+06 4.956005e-01 -493 9.375620e+06 4.955364e-01 -494 9.462372e+06 4.954714e-01 -495 9.549926e+06 4.954053e-01 -496 9.638290e+06 4.953383e-01 -497 9.727472e+06 4.952702e-01 -498 9.817479e+06 4.952010e-01 -499 9.908319e+06 4.951308e-01 -500 1.000000e+07 4.950596e-01 -501 1.009253e+07 4.949872e-01 -502 1.018591e+07 4.949138e-01 -503 1.028016e+07 4.948392e-01 -504 1.037528e+07 4.947635e-01 -505 1.047129e+07 4.946867e-01 -506 1.056818e+07 4.946088e-01 -507 1.066596e+07 4.945296e-01 -508 1.076465e+07 4.944493e-01 -509 1.086426e+07 4.943678e-01 -510 1.096478e+07 4.942851e-01 -511 1.106624e+07 4.942011e-01 -512 1.116863e+07 4.941159e-01 -513 1.127197e+07 4.940295e-01 -514 1.137627e+07 4.939418e-01 -515 1.148154e+07 4.938528e-01 -516 1.158777e+07 4.937624e-01 -517 1.169499e+07 4.936708e-01 -518 1.180321e+07 4.935779e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.934836e-01 -520 1.202264e+07 4.933879e-01 -521 1.213389e+07 4.932908e-01 -522 1.224616e+07 4.931924e-01 -523 1.235947e+07 4.930925e-01 -524 1.247384e+07 4.929912e-01 -525 1.258925e+07 4.928885e-01 -526 1.270574e+07 4.927843e-01 -527 1.282331e+07 4.926786e-01 -528 1.294196e+07 4.925714e-01 -529 1.306171e+07 4.924627e-01 -530 1.318257e+07 4.923524e-01 -531 1.330454e+07 4.922407e-01 -532 1.342765e+07 4.921273e-01 -533 1.355189e+07 4.920123e-01 -534 1.367729e+07 4.918958e-01 -535 1.380384e+07 4.917776e-01 -536 1.393157e+07 4.916578e-01 -537 1.406048e+07 4.915363e-01 -538 1.419058e+07 4.914132e-01 -539 1.432188e+07 4.912883e-01 -540 1.445440e+07 4.911617e-01 -541 1.458814e+07 4.910334e-01 -542 1.472313e+07 4.909034e-01 -543 1.485936e+07 4.907715e-01 -544 1.499685e+07 4.906379e-01 -545 1.513561e+07 4.905024e-01 -546 1.527566e+07 4.903652e-01 -547 1.541700e+07 4.902260e-01 -548 1.555966e+07 4.900850e-01 -549 1.570363e+07 4.899421e-01 -550 1.584893e+07 4.897973e-01 -551 1.599558e+07 4.896505e-01 -552 1.614359e+07 4.895018e-01 -553 1.629296e+07 4.893511e-01 -554 1.644372e+07 4.891984e-01 -555 1.659587e+07 4.890437e-01 -556 1.674943e+07 4.888870e-01 -557 1.690441e+07 4.887282e-01 -558 1.706082e+07 4.885673e-01 -559 1.721869e+07 4.884043e-01 -560 1.737801e+07 4.882391e-01 -561 1.753881e+07 4.880718e-01 -562 1.770109e+07 4.879024e-01 -563 1.786488e+07 4.877307e-01 -564 1.803018e+07 4.875569e-01 -565 1.819701e+07 4.873807e-01 -566 1.836538e+07 4.872024e-01 -567 1.853532e+07 4.870217e-01 -568 1.870682e+07 4.868387e-01 -569 1.887991e+07 4.866535e-01 -570 1.905461e+07 4.864658e-01 -571 1.923092e+07 4.862758e-01 -572 1.940886e+07 4.860834e-01 -573 1.958845e+07 4.858885e-01 -574 1.976970e+07 4.856912e-01 -575 1.995262e+07 4.854915e-01 -576 2.013724e+07 4.852892e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.850844e-01 -578 2.051162e+07 4.848771e-01 -579 2.070141e+07 4.846673e-01 -580 2.089296e+07 4.844548e-01 -581 2.108628e+07 4.842398e-01 -582 2.128139e+07 4.840221e-01 -583 2.147830e+07 4.838018e-01 -584 2.167704e+07 4.835788e-01 -585 2.187762e+07 4.833531e-01 -586 2.208005e+07 4.831247e-01 -587 2.228435e+07 4.828936e-01 -588 2.249055e+07 4.826597e-01 -589 2.269865e+07 4.824230e-01 -590 2.290868e+07 4.821835e-01 -591 2.312065e+07 4.819412e-01 -592 2.333458e+07 4.816961e-01 -593 2.355049e+07 4.814481e-01 -594 2.376840e+07 4.811972e-01 -595 2.398833e+07 4.809434e-01 -596 2.421029e+07 4.806867e-01 -597 2.443431e+07 4.804270e-01 -598 2.466039e+07 4.801644e-01 -599 2.488857e+07 4.798989e-01 -600 2.511886e+07 4.796303e-01 -601 2.535129e+07 4.793588e-01 -602 2.558586e+07 4.790842e-01 -603 2.582260e+07 4.788066e-01 -604 2.606154e+07 4.785259e-01 -605 2.630268e+07 4.782422e-01 -606 2.654606e+07 4.779554e-01 -607 2.679168e+07 4.776655e-01 -608 2.703958e+07 4.773725e-01 -609 2.728978e+07 4.770765e-01 -610 2.754229e+07 4.767773e-01 -611 2.779713e+07 4.764750e-01 -612 2.805434e+07 4.761696e-01 -613 2.831392e+07 4.758610e-01 -614 2.857591e+07 4.755493e-01 -615 2.884032e+07 4.752345e-01 -616 2.910717e+07 4.749166e-01 -617 2.937650e+07 4.745955e-01 -618 2.964831e+07 4.742713e-01 -619 2.992265e+07 4.739439e-01 -620 3.019952e+07 4.736135e-01 -621 3.047895e+07 4.732799e-01 -622 3.076097e+07 4.729432e-01 -623 3.104560e+07 4.726034e-01 -624 3.133286e+07 4.722606e-01 -625 3.162278e+07 4.719146e-01 -626 3.191538e+07 4.715656e-01 -627 3.221069e+07 4.712136e-01 -628 3.250873e+07 4.708586e-01 -629 3.280953e+07 4.705005e-01 -630 3.311311e+07 4.701395e-01 -631 3.341950e+07 4.697756e-01 -632 3.372873e+07 4.694088e-01 -633 3.404082e+07 4.690390e-01 -634 3.435579e+07 4.686665e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.682911e-01 -636 3.499452e+07 4.679130e-01 -637 3.531832e+07 4.675321e-01 -638 3.564511e+07 4.671486e-01 -639 3.597493e+07 4.667624e-01 -640 3.630781e+07 4.663737e-01 -641 3.664376e+07 4.659824e-01 -642 3.698282e+07 4.655887e-01 -643 3.732502e+07 4.651926e-01 -644 3.767038e+07 4.647942e-01 -645 3.801894e+07 4.643935e-01 -646 3.837072e+07 4.639906e-01 -647 3.872576e+07 4.635856e-01 -648 3.908409e+07 4.631786e-01 -649 3.944573e+07 4.627697e-01 -650 3.981072e+07 4.623588e-01 -651 4.017908e+07 4.619463e-01 -652 4.055085e+07 4.615320e-01 -653 4.092607e+07 4.611162e-01 -654 4.130475e+07 4.606989e-01 -655 4.168694e+07 4.602803e-01 -656 4.207266e+07 4.598604e-01 -657 4.246196e+07 4.594394e-01 -658 4.285485e+07 4.590174e-01 -659 4.325138e+07 4.585945e-01 -660 4.365158e+07 4.581710e-01 -661 4.405549e+07 4.577468e-01 -662 4.446313e+07 4.573222e-01 -663 4.487454e+07 4.568972e-01 -664 4.528976e+07 4.564722e-01 -665 4.570882e+07 4.560471e-01 -666 4.613176e+07 4.556222e-01 -667 4.655861e+07 4.551977e-01 -668 4.698941e+07 4.547737e-01 -669 4.742420e+07 4.543504e-01 -670 4.786301e+07 4.539280e-01 -671 4.830588e+07 4.535066e-01 -672 4.875285e+07 4.530866e-01 -673 4.920395e+07 4.526681e-01 -674 4.965923e+07 4.522513e-01 -675 5.011872e+07 4.518364e-01 -676 5.058247e+07 4.514236e-01 -677 5.105050e+07 4.510132e-01 -678 5.152286e+07 4.506055e-01 -679 5.199960e+07 4.502006e-01 -680 5.248075e+07 4.497988e-01 -681 5.296634e+07 4.494004e-01 -682 5.345644e+07 4.490056e-01 -683 5.395106e+07 4.486147e-01 -684 5.445027e+07 4.482280e-01 -685 5.495409e+07 4.478457e-01 -686 5.546257e+07 4.474682e-01 -687 5.597576e+07 4.470958e-01 -688 5.649370e+07 4.467287e-01 -689 5.701643e+07 4.463673e-01 -690 5.754399e+07 4.460119e-01 -691 5.807644e+07 4.456627e-01 -692 5.861382e+07 4.453202e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.449847e-01 -694 5.970353e+07 4.446566e-01 -695 6.025596e+07 4.443361e-01 -696 6.081350e+07 4.440236e-01 -697 6.137620e+07 4.437196e-01 -698 6.194411e+07 4.434243e-01 -699 6.251727e+07 4.431382e-01 -700 6.309573e+07 4.428617e-01 -701 6.367955e+07 4.425951e-01 -702 6.426877e+07 4.423389e-01 -703 6.486344e+07 4.420934e-01 -704 6.546362e+07 4.418591e-01 -705 6.606934e+07 4.416364e-01 -706 6.668068e+07 4.414257e-01 -707 6.729767e+07 4.412275e-01 -708 6.792036e+07 4.410421e-01 -709 6.854882e+07 4.408701e-01 -710 6.918310e+07 4.407119e-01 -711 6.982324e+07 4.405679e-01 -712 7.046931e+07 4.404387e-01 -713 7.112135e+07 4.403246e-01 -714 7.177943e+07 4.402261e-01 -715 7.244360e+07 4.401438e-01 -716 7.311391e+07 4.400780e-01 -717 7.379042e+07 4.400293e-01 -718 7.447320e+07 4.399982e-01 -719 7.516229e+07 4.399851e-01 -720 7.585776e+07 4.399905e-01 -721 7.655966e+07 4.400149e-01 -722 7.726806e+07 4.400589e-01 -723 7.798301e+07 4.401228e-01 -724 7.870458e+07 4.402072e-01 -725 7.943282e+07 4.403125e-01 -726 8.016781e+07 4.404393e-01 -727 8.090959e+07 4.405880e-01 -728 8.165824e+07 4.407591e-01 -729 8.241381e+07 4.409530e-01 -730 8.317638e+07 4.411702e-01 -731 8.394600e+07 4.414111e-01 -732 8.472274e+07 4.416763e-01 -733 8.550667e+07 4.419660e-01 -734 8.629785e+07 4.422808e-01 -735 8.709636e+07 4.426210e-01 -736 8.790225e+07 4.429870e-01 -737 8.871560e+07 4.433791e-01 -738 8.953648e+07 4.437977e-01 -739 9.036495e+07 4.442431e-01 -740 9.120108e+07 4.447155e-01 -741 9.204496e+07 4.452152e-01 -742 9.289664e+07 4.457425e-01 -743 9.375620e+07 4.462974e-01 -744 9.462372e+07 4.468802e-01 -745 9.549926e+07 4.474909e-01 -746 9.638290e+07 4.481296e-01 -747 9.727472e+07 4.487962e-01 -748 9.817479e+07 4.494907e-01 -749 9.908319e+07 4.502129e-01 -750 1.000000e+08 4.509627e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.517398e-01 -752 1.018591e+08 4.525437e-01 -753 1.028016e+08 4.533742e-01 -754 1.037528e+08 4.542306e-01 -755 1.047129e+08 4.551124e-01 -756 1.056818e+08 4.560187e-01 -757 1.066596e+08 4.569489e-01 -758 1.076465e+08 4.579018e-01 -759 1.086426e+08 4.588765e-01 -760 1.096478e+08 4.598718e-01 -761 1.106624e+08 4.608862e-01 -762 1.116863e+08 4.619184e-01 -763 1.127197e+08 4.629666e-01 -764 1.137627e+08 4.640291e-01 -765 1.148154e+08 4.651039e-01 -766 1.158777e+08 4.661889e-01 -767 1.169499e+08 4.672818e-01 -768 1.180321e+08 4.683800e-01 -769 1.191242e+08 4.694810e-01 -770 1.202264e+08 4.705817e-01 -771 1.213389e+08 4.716793e-01 -772 1.224616e+08 4.727704e-01 -773 1.235947e+08 4.738516e-01 -774 1.247384e+08 4.749193e-01 -775 1.258925e+08 4.759696e-01 -776 1.270574e+08 4.769987e-01 -777 1.282331e+08 4.780023e-01 -778 1.294196e+08 4.789762e-01 -779 1.306171e+08 4.799159e-01 -780 1.318257e+08 4.808168e-01 -781 1.330454e+08 4.816743e-01 -782 1.342765e+08 4.824836e-01 -783 1.355189e+08 4.832399e-01 -784 1.367729e+08 4.839385e-01 -785 1.380384e+08 4.845744e-01 -786 1.393157e+08 4.851430e-01 -787 1.406048e+08 4.856394e-01 -788 1.419058e+08 4.860593e-01 -789 1.432188e+08 4.863982e-01 -790 1.445440e+08 4.866519e-01 -791 1.458814e+08 4.868166e-01 -792 1.472313e+08 4.868885e-01 -793 1.485936e+08 4.868646e-01 -794 1.499685e+08 4.867420e-01 -795 1.513561e+08 4.865182e-01 -796 1.527566e+08 4.861914e-01 -797 1.541700e+08 4.857602e-01 -798 1.555966e+08 4.852239e-01 -799 1.570363e+08 4.845822e-01 -800 1.584893e+08 4.838356e-01 -801 1.599558e+08 4.829851e-01 -802 1.614359e+08 4.820326e-01 -803 1.629296e+08 4.809803e-01 -804 1.644372e+08 4.798313e-01 -805 1.659587e+08 4.785894e-01 -806 1.674943e+08 4.772589e-01 -807 1.690441e+08 4.758448e-01 -808 1.706082e+08 4.743526e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.727886e-01 -810 1.737801e+08 4.711593e-01 -811 1.753881e+08 4.694720e-01 -812 1.770109e+08 4.677341e-01 -813 1.786488e+08 4.659537e-01 -814 1.803018e+08 4.641390e-01 -815 1.819701e+08 4.622987e-01 -816 1.836538e+08 4.604415e-01 -817 1.853532e+08 4.585765e-01 -818 1.870682e+08 4.567127e-01 -819 1.887991e+08 4.548594e-01 -820 1.905461e+08 4.530257e-01 -821 1.923092e+08 4.512210e-01 -822 1.940886e+08 4.494544e-01 -823 1.958845e+08 4.477349e-01 -824 1.976970e+08 4.460715e-01 -825 1.995262e+08 4.444731e-01 -826 2.013724e+08 4.429482e-01 -827 2.032357e+08 4.415053e-01 -828 2.051162e+08 4.401526e-01 -829 2.070141e+08 4.388978e-01 -830 2.089296e+08 4.377488e-01 -831 2.108628e+08 4.367128e-01 -832 2.128139e+08 4.357969e-01 -833 2.147830e+08 4.350077e-01 -834 2.167704e+08 4.343515e-01 -835 2.187762e+08 4.338343e-01 -836 2.208005e+08 4.334616e-01 -837 2.228435e+08 4.332384e-01 -838 2.249055e+08 4.331691e-01 -839 2.269865e+08 4.332578e-01 -840 2.290868e+08 4.335078e-01 -841 2.312065e+08 4.339218e-01 -842 2.333458e+08 4.345017e-01 -843 2.355049e+08 4.352484e-01 -844 2.376840e+08 4.361622e-01 -845 2.398833e+08 4.372420e-01 -846 2.421029e+08 4.384856e-01 -847 2.443431e+08 4.398894e-01 -848 2.466039e+08 4.414484e-01 -849 2.488857e+08 4.431558e-01 -850 2.511886e+08 4.450031e-01 -851 2.535129e+08 4.469794e-01 -852 2.558586e+08 4.490720e-01 -853 2.582260e+08 4.512655e-01 -854 2.606154e+08 4.535421e-01 -855 2.630268e+08 4.558812e-01 -856 2.654606e+08 4.582598e-01 -857 2.679168e+08 4.606517e-01 -858 2.703958e+08 4.630282e-01 -859 2.728978e+08 4.653583e-01 -860 2.754229e+08 4.676086e-01 -861 2.779713e+08 4.697438e-01 -862 2.805434e+08 4.717277e-01 -863 2.831392e+08 4.735235e-01 -864 2.857591e+08 4.750948e-01 -865 2.884032e+08 4.764066e-01 -866 2.910717e+08 4.774264e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.781253e-01 -868 2.964831e+08 4.784794e-01 -869 2.992265e+08 4.784704e-01 -870 3.019952e+08 4.780867e-01 -871 3.047895e+08 4.773245e-01 -872 3.076097e+08 4.761877e-01 -873 3.104560e+08 4.746883e-01 -874 3.133286e+08 4.728464e-01 -875 3.162278e+08 4.706895e-01 -876 3.191538e+08 4.682517e-01 -877 3.221069e+08 4.655733e-01 -878 3.250873e+08 4.626988e-01 -879 3.280953e+08 4.596767e-01 -880 3.311311e+08 4.565574e-01 -881 3.341950e+08 4.533927e-01 -882 3.372873e+08 4.502340e-01 -883 3.404082e+08 4.471324e-01 -884 3.435579e+08 4.441368e-01 -885 3.467369e+08 4.412939e-01 -886 3.499452e+08 4.386476e-01 -887 3.531832e+08 4.362388e-01 -888 3.564511e+08 4.341046e-01 -889 3.597493e+08 4.322788e-01 -890 3.630781e+08 4.307915e-01 -891 3.664376e+08 4.296688e-01 -892 3.698282e+08 4.289330e-01 -893 3.732502e+08 4.286023e-01 -894 3.767038e+08 4.286903e-01 -895 3.801894e+08 4.292063e-01 -896 3.837072e+08 4.301538e-01 -897 3.872576e+08 4.315307e-01 -898 3.908409e+08 4.333282e-01 -899 3.944573e+08 4.355294e-01 -900 3.981072e+08 4.381089e-01 -901 4.017908e+08 4.410310e-01 -902 4.055085e+08 4.442486e-01 -903 4.092607e+08 4.477020e-01 -904 4.130475e+08 4.513185e-01 -905 4.168694e+08 4.550115e-01 -906 4.207266e+08 4.586813e-01 -907 4.246196e+08 4.622167e-01 -908 4.285485e+08 4.654978e-01 -909 4.325138e+08 4.684009e-01 -910 4.365158e+08 4.708042e-01 -911 4.405549e+08 4.725951e-01 -912 4.446313e+08 4.736787e-01 -913 4.487454e+08 4.739848e-01 -914 4.528976e+08 4.734754e-01 -915 4.570882e+08 4.721488e-01 -916 4.613176e+08 4.700410e-01 -917 4.655861e+08 4.672246e-01 -918 4.698941e+08 4.638043e-01 -919 4.742420e+08 4.599094e-01 -920 4.786301e+08 4.556865e-01 -921 4.830588e+08 4.512906e-01 -922 4.875285e+08 4.468777e-01 -923 4.920395e+08 4.425981e-01 -924 4.965923e+08 4.385919e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.349855e-01 -926 5.058247e+08 4.318899e-01 -927 5.105050e+08 4.293997e-01 -928 5.152286e+08 4.275927e-01 -929 5.199960e+08 4.265302e-01 -930 5.248075e+08 4.262563e-01 -931 5.296634e+08 4.267975e-01 -932 5.345644e+08 4.281610e-01 -933 5.395106e+08 4.303320e-01 -934 5.445027e+08 4.332706e-01 -935 5.495409e+08 4.369074e-01 -936 5.546257e+08 4.411384e-01 -937 5.597576e+08 4.458208e-01 -938 5.649370e+08 4.507691e-01 -939 5.701643e+08 4.557559e-01 -940 5.754399e+08 4.605169e-01 -941 5.807644e+08 4.647629e-01 -942 5.861382e+08 4.682014e-01 -943 5.915616e+08 4.705642e-01 -944 5.970353e+08 4.716402e-01 -945 6.025596e+08 4.713056e-01 -946 6.081350e+08 4.695450e-01 -947 6.137620e+08 4.664588e-01 -948 6.194411e+08 4.622523e-01 -949 6.251727e+08 4.572122e-01 -950 6.309573e+08 4.516738e-01 -951 6.367955e+08 4.459883e-01 -952 6.426877e+08 4.404945e-01 -953 6.486344e+08 4.354992e-01 -954 6.546362e+08 4.312655e-01 -955 6.606934e+08 4.280077e-01 -956 6.668068e+08 4.258906e-01 -957 6.729767e+08 4.250301e-01 -958 6.792036e+08 4.254934e-01 -959 6.854882e+08 4.272958e-01 -960 6.918310e+08 4.303945e-01 -961 6.982324e+08 4.346784e-01 -962 7.046931e+08 4.399548e-01 -963 7.112135e+08 4.459355e-01 -964 7.177943e+08 4.522293e-01 -965 7.244360e+08 4.583468e-01 -966 7.311391e+08 4.637289e-01 -967 7.379042e+08 4.678054e-01 -968 7.447320e+08 4.700804e-01 -969 7.516229e+08 4.702272e-01 -970 7.585776e+08 4.681656e-01 -971 7.655966e+08 4.640894e-01 -972 7.726806e+08 4.584343e-01 -973 7.798301e+08 4.517980e-01 -974 7.870458e+08 4.448418e-01 -975 7.943282e+08 4.382044e-01 -976 8.016781e+08 4.324432e-01 -977 8.090959e+08 4.280059e-01 -978 8.165824e+08 4.252234e-01 -979 8.241381e+08 4.243124e-01 -980 8.317638e+08 4.253773e-01 -981 8.394600e+08 4.284040e-01 -982 8.472274e+08 4.332422e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.395769e-01 -984 8.629785e+08 4.468956e-01 -985 8.709636e+08 4.544731e-01 -986 8.790225e+08 4.613987e-01 -987 8.871560e+08 4.666810e-01 -988 8.953648e+08 4.694365e-01 -989 9.036495e+08 4.691192e-01 -990 9.120108e+08 4.656984e-01 -991 9.204496e+08 4.596888e-01 -992 9.289664e+08 4.520157e-01 -993 9.375620e+08 4.437870e-01 -994 9.462372e+08 4.360763e-01 -995 9.549926e+08 4.297838e-01 -996 9.638290e+08 4.255795e-01 -997 9.727472e+08 4.238987e-01 -998 9.817479e+08 4.249524e-01 -999 9.908319e+08 4.287217e-01 -1000 1.000000e+09 4.349240e-01 - -CPU time since last call: 0.040 seconds. - -Total CPU time: 0.040 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4867.695312 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 771.000 kB. -Shared ngspice pages = 527.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec deleted file mode 100644 index 2aea618..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.bundle_spec +++ /dev/null @@ -1,11 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -#MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -1 # Number of cables in bundle, cable list follows: name then x,y of cable -TP_AWG_24_ESCC_3901025_V08 -0.0 0.05 ! x and y coordinates of the cable centre, 5cm over the ground plane -ground_plane -use_laplace - - diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec deleted file mode 100644 index b466386..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/TP_AWG_24_ESCC_3901025_V08_over_ground.spice_model_spec +++ /dev/null @@ -1,40 +0,0 @@ -MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -MOD_bundle_lib_dir -LIBRARY_OF_BUNDLE_MODELS -MOD_spice_bundle_lib_dir -LIBRARY_OF_SPICE_MODELS -#spice_symbol_dir -SYMBOL_DIR -# Specification for spice model of single wire over ground, no loss -TP_AWG_24_ESCC_3901025_V08_over_ground -# cable bundle length (m) -1.0 -#Incident field specification -0.0 amplitude (V/m) -90.0 0.0 ktheta kphi (degrees) --1.0 0.0 Etheta Ephi -# End 1 termination model - 0.50 End 1 voltage source list --0.50 -0.0 -50.0 End 1 impedance list -50.0 -0.0 -# End 2 termination model -0.0 End 2 voltage source list -0.0 -0.0 -50.0 End 2 impedance list -50.0 -0.0 -# Type of analysis -AC -log # frequency scale (log or lin) -1e5 1e9 1000 # fmin fmax number_of_frequencies -# Output conductor number and end number -1 2 2 -lin # output type (lin or dB) -2 # order for filter fit model -lin -5e4 1e8 100 # fmin fmax number_of_frequencies for filter fitting process diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/analytic_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/analytic_solution.dat_reference deleted file mode 100644 index f41403f..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/analytic_solution.dat_reference +++ /dev/null @@ -1,1001 +0,0 @@ -#LOG_FREQUENCY_DATA - 100000.00000000000 0.49908122349915451 -2.6128001120104324E-003 - 100926.21909870484 0.49908085190160040 -2.6369026598744389E-003 - 101861.01701559752 0.49908047364161723 -2.6612257832010766E-003 - 102804.47320933097 0.49908008860442682 -2.6857714535755304E-003 - 103756.66787451849 0.49907969667344448 -2.7105416589935758E-003 - 104717.68194855202 0.49907929773025794 -2.7355384039694382E-003 - 105687.59711848051 0.49907889165460345 -2.7607637096424705E-003 - 106666.49582795388 0.49907847832434465 -2.7862196138842398E-003 - 107654.46128423158 0.49907805761545021 -2.8119081714053254E-003 - 108651.57746525372 0.49907762940197209 -2.8378314538630924E-003 - 109657.92912678099 0.49907719355602193 -2.8639915499674533E-003 - 110673.60180959746 0.49907674994775086 -2.8903905655893736E-003 - 111698.68184678226 0.49907629844532619 -2.9170306238662635E-003 - 112733.25637104872 0.49907583891490975 -2.9439138653094541E-003 - 113777.41332214902 0.49907537122063594 -2.9710424479111605E-003 - 114831.24145435111 0.49907489522458975 -2.9984185472509833E-003 - 115894.83034398119 0.49907441078678533 -3.0260443566018369E-003 - 116968.27039703846 0.49907391776514465 -3.0539220870374165E-003 - 118051.65285688055 0.49907341601547461 -3.0820539675375539E-003 - 119145.06981197748 0.49907290539144811 -3.1104422450946982E-003 - 120248.61420374122 0.49907238574458046 -3.1390891848200289E-003 - 121362.37983442418 0.49907185692421036 -3.1679970700493024E-003 - 122486.46137509307 0.49907131877747835 -3.1971682024477073E-003 - 123620.95437367691 0.49907077114930637 -3.2266049021160890E-003 - 124765.95526308684 0.49907021388237777 -3.2563095076965001E-003 - 125921.56136941510 0.49906964681711818 -3.2862843764754537E-003 - 127087.87092020595 0.49906906979167442 -3.3165318844909065E-003 - 128264.98305280598 0.49906848264189585 -3.3470544266347765E-003 - 129452.99782279160 0.49906788520131690 -3.3778544167592239E-003 - 130652.01621247199 0.49906727730113659 -3.4089342877789432E-003 - 131862.14013947485 0.49906665877020190 -3.4402964917758191E-003 - 133083.47246540760 0.49906602943498940 -3.4719435001026992E-003 - 134316.11700460155 0.49906538911958814 -3.5038778034854321E-003 - 135560.17853293690 0.49906473764568404 -3.5361019121278960E-003 - 136815.76279674706 0.49906407483254295 -3.5686183558128097E-003 - 138082.97652180924 0.49906340049699499 -3.6014296840053686E-003 - 139361.92742241436 0.49906271445342015 -3.6345384659545394E-003 - 140652.72421052365 0.49906201651373422 -3.6679472907961315E-003 - 141955.47660501016 0.49906130648737451 -3.7016587676535354E-003 - 143270.29534098294 0.49906058418128774 -3.7356755257391735E-003 - 144597.29217920196 0.49905984939991710 -3.7700002144563454E-003 - 145936.57991557577 0.49905910194519160 -3.8046355034995084E-003 - 147288.27239075018 0.49905834161651558 -3.8395840829548913E-003 - 148652.48449978570 0.49905756821075836 -3.8748486634017257E-003 - 150029.33220192167 0.49905678152224592 -3.9104319760110773E-003 - 151418.93253043521 0.49905598134275336 -3.9463367726475657E-003 - 152821.40360258709 0.49905516746149747 -3.9825658259678735E-003 - 154236.86462966274 0.49905433966513130 -4.0191219295209633E-003 - 155665.43592710621 0.49905349773773972 -4.0560078978480758E-003 - 157107.23892474489 0.49905264146083433 -4.0932265665810765E-003 - 158562.39617711373 0.49905177061335404 -4.1307807925429312E-003 - 160031.03137387018 0.49905088497166000 -4.1686734538465163E-003 - 161513.26935030895 0.49904998430953873 -4.2069074499937594E-003 - 163009.23609797412 0.49904906839820168 -4.2454857019754893E-003 - 164519.05877536608 0.49904813700628942 -4.2844111523705937E-003 - 166042.86571875296 0.49904718989987362 -4.3236867654448128E-003 - 167580.78645307687 0.49904622684246530 -4.3633155272519404E-003 - 169132.95170296470 0.49904524759501956 -4.4033004457321228E-003 - 170699.49340384078 0.49904425191594576 -4.4436445508125710E-003 - 172280.54471313921 0.49904323956111685 -4.4843508945082286E-003 - 173876.24002162504 0.49904221028388246 -4.5254225510222073E-003 - 175486.71496481521 0.49904116383508124 -4.5668626168469057E-003 - 177112.10643450869 0.49904009996305798 -4.6086742108662091E-003 - 178752.55259042355 0.49903901841367931 -4.6508604744573854E-003 - 180408.19287193808 0.49903791893035471 -4.6934245715941061E-003 - 182079.16800994624 0.49903680125405542 -4.7363696889505102E-003 - 183765.62003881723 0.49903566512334074 -4.7796990360053178E-003 - 185467.69230846976 0.49903451027438089 -4.8234158451479084E-003 - 187185.52949655792 0.49903333644098530 -4.8675233717844135E-003 - 188919.27762076643 0.49903214335463336 -4.9120248944453599E-003 - 190669.08405122519 0.49903093074450444 -4.9569237148949386E-003 - 192435.09752303324 0.49902969833751382 -5.0022231582412882E-003 - 194217.46814890244 0.49902844585834855 -5.0479265730479549E-003 - 196016.34743191858 0.49902717302950733 -5.0940373314477963E-003 - 197831.88827841621 0.49902587957134137 -5.1405588292576408E-003 - 199664.24501097933 0.49902456520209887 -5.1874944860957730E-003 - 201513.57338155585 0.49902322963797185 -5.2348477455005536E-003 - 203380.03058469799 0.49902187259314590 -5.2826220750525369E-003 - 205263.77527092522 0.49902049377985258 -5.3308209664971584E-003 - 207164.96756020669 0.49901909290842361 -5.3794479358717671E-003 - 209083.76905557499 0.49901766968734956 -5.4285065236339214E-003 - 211020.34285685964 0.49901622382334071 -5.4780002947934798E-003 - 212974.85357455187 0.49901475502139070 -5.5279328390470915E-003 - 214947.46734379805 0.49901326298484283 -5.5783077709170735E-003 - 216938.35183851823 0.49901174741546095 -5.6291287298919634E-003 - 218947.67628566208 0.49901020801350132 -5.6803993805724668E-003 - 220975.61147959033 0.49900864447779003 -5.7321234128204701E-003 - 223022.32979659364 0.49900705650580135 -5.7843045419122057E-003 - 225088.00520954619 0.49900544379374112 -5.8369465086961624E-003 - 227172.81330269075 0.49900380603663180 -5.8900530797547689E-003 - 229276.93128656488 0.49900214292840323 -5.9436280475723430E-003 - 231400.53801306541 0.49900045416198374 -5.9976752307065928E-003 - 233543.81399064770 0.49899873942939682 -6.0521984739664147E-003 - 235706.94139967277 0.49899699842186135 -6.1072016485954252E-003 - 237890.10410788958 0.49899523082989355 -6.1626886524607403E-003 - 240093.48768606517 0.49899343634341364 -6.2186634102483831E-003 - 242317.27942376008 0.49899161465185682 -6.2751298736658306E-003 - 244561.66834524440 0.49898976544428497 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1.4233802640441311 - 534229329.95383632 0.46318343704091469 1.3225129608359190 - 539177464.03874946 0.46374118673477616 1.2204587070171602 - 544171428.68658876 0.46447474550146312 1.1171203029767427 - 549211648.38877892 0.46535339737023251 1.0124094994369437 - 554298551.56846750 0.46633804785729238 0.90625131844629458 - 559432570.61693895 0.46738213130155104 0.79858834971710024 - 564614141.93036616 0.46843307136191936 0.68938477124793518 - 569843705.94691360 0.46943434689983260 0.57862977763309031 - 575121707.18416142 0.47032816351330176 0.46634004920877742 - 580448594.27689838 0.47105865591044432 0.35256087723478874 - 585824820.01525474 0.47157545479465174 0.23736559187748008 - 591250841.38318694 0.47183735802508897 0.12085303336539394 - 596727119.59733105 0.47181576968949102 3.1429644736966351E-003 - 602254120.14619279 0.47149753447125781 -0.11563046835122397 - 607832312.82972360 0.47088681563852247 -0.23532688611954344 - 613462171.79925191 0.47000574863847372 -0.35580888735739435 - 619144175.59778345 0.46889373799196071 -0.47695160926152230 - 624878807.20068884 0.46760542714523373 -0.59865186916189117 - 630666554.05674052 0.46620752506670499 -0.72083615564825299 - 636507908.12955773 0.46477478774065278 -0.84346686928263981 - 642403365.93942034 0.46338550728234840 -0.96654640103117795 - 648353428.60547137 0.46211685329608876 -1.0901188399425559 - 654358601.88832295 0.46104035368541851 -1.2142692805022535 - 660419396.23303056 0.46021771926571597 -1.3391208277948159 - 666536326.81249201 0.45969713495383663 -1.4648294664998514 - 672709913.57123506 0.45951008302861096 -1.5915769772018633 - 678940681.26960981 0.45966874620393594 -1.7195620741619739 - 685229159.52840579 0.46016406575864915 -1.8489899351556804 - 691575882.87385249 0.46096459827088881 -1.9800603319674595 - 697981390.78306675 0.46201640808940436 -2.1129546821786551 - 704446227.72990513 0.46324432356276329 -2.2478225500885789 - 710970943.23124242 0.46455493233452716 -2.3847684255719281 - 717556091.89369214 0.46584164460457039 -2.5238399673501495 - 724202233.46073151 0.46699196593478559 -2.6650192284504075 - 730909932.86029184 0.46789677102046984 -2.8082185591233788 - 737679760.25277460 0.46846088843396427 -2.9532827594897397 - 744512291.07951283 0.46861379818969556 -3.0999985182078587 - 751408106.11169624 0.46831887607914463 3.0350740911273095 - 758367791.49971902 0.46757956645298659 2.8858373650225770 - 765391938.82301557 0.46644122692661627 2.7357409465398543 - 772481145.14034164 0.46498811391270006 2.5850130803828373 - 779636013.04052210 0.46333586234235341 2.4338211605746625 - 786857150.69368434 0.46162057817056590 2.2822526553900140 - 794145171.90293396 0.45998608278123859 2.1303036667469177 - 801500696.15654135 0.45857084902232137 1.9778759291475596 - 808924348.68059552 0.45749583950127742 1.8247820716422771 - 816416760.49214554 0.45685399166868068 1.6707583502129248 - 823978568.45285118 0.45670169471967009 1.5154838294365558 - 831610415.32309616 0.45705241443708144 1.3586050162238332 - 839312949.81663728 0.45787269730792668 1.1997649969100785 - 847086826.65574193 0.45908108392326102 1.0386359541350010 - 854932706.62683666 0.46055085116702926 0.87495334643004108 - 862851256.63668871 0.46211776038614011 0.70854896120113631 - 870843149.76907241 0.46359382595698062 0.53937867399570150 - 878909065.34199631 0.46478726889170396 0.36753954793937210 - 887049688.96544206 0.46552721544695225 0.19327064770500355 - 895265712.59963822 0.46568967800462008 1.6933400444863463E-002 - 903557834.61389208 0.46521971624107233 -0.16102917968132424 - 911926759.84592986 0.46414440238219995 -0.34015021282090668 - 920373199.66182303 0.46257286010621163 -0.52000477638502984 - 928897872.01645172 0.46068280862880112 -0.70027244933422594 - 937501501.51452708 0.45869642352356260 -0.88078587106778161 - 946184819.47219920 0.45685048296599406 -1.0615580766849755 - 954948563.97919667 0.45536600273344835 -1.2427859852437468 - 963793479.96157956 0.45442124066466860 -1.4248313270218271 - 972720319.24505568 0.45413010911021012 -1.6081824398227982 - 981729840.61888206 0.45452670667276041 -1.7934008306863185 - 990822809.90037870 0.45555643039354710 -1.9810561403354412 - 1000000000.0000000 0.45707491567821573 -2.1716534238500120 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/result_comparison.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/result_comparison.dat_reference deleted file mode 100644 index 09bc173..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/result_comparison.dat_reference +++ /dev/null @@ -1 +0,0 @@ -Result comparison: 0.00329751 diff --git a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/spice_solution.dat_reference b/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/spice_solution.dat_reference deleted file mode 100644 index 0f235aa..0000000 --- a/SPACECRAFT_CABLE_MOD/SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08/spice_solution.dat_reference +++ /dev/null @@ -1,1093 +0,0 @@ - -Circuit: ngspice multi-conductor transmission line validation model - -Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 - -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d2_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_mode_decomp_d1_c1_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e2: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c2_e1: has no value, DC 0 assumed -Warning: v.xtransmission_line.vmeas_domain_decomp_c1_e1: has no value, DC 0 assumed -Warning: vl_3: has no value, DC 0 assumed -Warning: vl_2: has no value, DC 0 assumed -Warning: vl_1: has no value, DC 0 assumed -Warning: vs_3: has no value, DC 0 assumed -Warning: vs_2: has no value, DC 0 assumed -Warning: vs_1: has no value, DC 0 assumed - - -No. of Data Rows : 1001 - ngspice multi-conductor transmission line validation model - AC Analysis Thu Apr 12 12:00:10 2018 --------------------------------------------------------------------------------- -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -0 1.000000e+05 4.994000e-01 -1 1.009253e+05 4.994000e-01 -2 1.018591e+05 4.994000e-01 -3 1.028016e+05 4.994000e-01 -4 1.037528e+05 4.994000e-01 -5 1.047129e+05 4.993999e-01 -6 1.056818e+05 4.993999e-01 -7 1.066596e+05 4.993999e-01 -8 1.076465e+05 4.993999e-01 -9 1.086426e+05 4.993999e-01 -10 1.096478e+05 4.993999e-01 -11 1.106624e+05 4.993999e-01 -12 1.116863e+05 4.993999e-01 -13 1.127197e+05 4.993999e-01 -14 1.137627e+05 4.993999e-01 -15 1.148154e+05 4.993999e-01 -16 1.158777e+05 4.993999e-01 -17 1.169499e+05 4.993999e-01 -18 1.180321e+05 4.993999e-01 -19 1.191242e+05 4.993999e-01 -20 1.202264e+05 4.993998e-01 -21 1.213389e+05 4.993998e-01 -22 1.224616e+05 4.993998e-01 -23 1.235947e+05 4.993998e-01 -24 1.247384e+05 4.993998e-01 -25 1.258925e+05 4.993998e-01 -26 1.270574e+05 4.993998e-01 -27 1.282331e+05 4.993998e-01 -28 1.294196e+05 4.993998e-01 -29 1.306171e+05 4.993998e-01 -30 1.318257e+05 4.993998e-01 -31 1.330454e+05 4.993998e-01 -32 1.342765e+05 4.993997e-01 -33 1.355189e+05 4.993997e-01 -34 1.367729e+05 4.993997e-01 -35 1.380384e+05 4.993997e-01 -36 1.393157e+05 4.993997e-01 -37 1.406048e+05 4.993997e-01 -38 1.419058e+05 4.993997e-01 -39 1.432188e+05 4.993997e-01 -40 1.445440e+05 4.993997e-01 -41 1.458814e+05 4.993997e-01 -42 1.472313e+05 4.993996e-01 -43 1.485936e+05 4.993996e-01 -44 1.499685e+05 4.993996e-01 -45 1.513561e+05 4.993996e-01 -46 1.527566e+05 4.993996e-01 -47 1.541700e+05 4.993996e-01 -48 1.555966e+05 4.993996e-01 -49 1.570363e+05 4.993996e-01 -50 1.584893e+05 4.993995e-01 -51 1.599558e+05 4.993995e-01 -52 1.614359e+05 4.993995e-01 -53 1.629296e+05 4.993995e-01 -54 1.644372e+05 4.993995e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -55 1.659587e+05 4.993995e-01 -56 1.674943e+05 4.993995e-01 -57 1.690441e+05 4.993995e-01 -58 1.706082e+05 4.993994e-01 -59 1.721869e+05 4.993994e-01 -60 1.737801e+05 4.993994e-01 -61 1.753881e+05 4.993994e-01 -62 1.770109e+05 4.993994e-01 -63 1.786488e+05 4.993994e-01 -64 1.803018e+05 4.993993e-01 -65 1.819701e+05 4.993993e-01 -66 1.836538e+05 4.993993e-01 -67 1.853532e+05 4.993993e-01 -68 1.870682e+05 4.993993e-01 -69 1.887991e+05 4.993993e-01 -70 1.905461e+05 4.993992e-01 -71 1.923092e+05 4.993992e-01 -72 1.940886e+05 4.993992e-01 -73 1.958845e+05 4.993992e-01 -74 1.976970e+05 4.993992e-01 -75 1.995262e+05 4.993991e-01 -76 2.013724e+05 4.993991e-01 -77 2.032357e+05 4.993991e-01 -78 2.051162e+05 4.993991e-01 -79 2.070141e+05 4.993990e-01 -80 2.089296e+05 4.993990e-01 -81 2.108628e+05 4.993990e-01 -82 2.128139e+05 4.993990e-01 -83 2.147830e+05 4.993990e-01 -84 2.167704e+05 4.993989e-01 -85 2.187762e+05 4.993989e-01 -86 2.208005e+05 4.993989e-01 -87 2.228435e+05 4.993989e-01 -88 2.249055e+05 4.993988e-01 -89 2.269865e+05 4.993988e-01 -90 2.290868e+05 4.993988e-01 -91 2.312065e+05 4.993987e-01 -92 2.333458e+05 4.993987e-01 -93 2.355049e+05 4.993987e-01 -94 2.376840e+05 4.993987e-01 -95 2.398833e+05 4.993986e-01 -96 2.421029e+05 4.993986e-01 -97 2.443431e+05 4.993986e-01 -98 2.466039e+05 4.993985e-01 -99 2.488857e+05 4.993985e-01 -100 2.511886e+05 4.993985e-01 -101 2.535129e+05 4.993984e-01 -102 2.558586e+05 4.993984e-01 -103 2.582260e+05 4.993984e-01 -104 2.606154e+05 4.993983e-01 -105 2.630268e+05 4.993983e-01 -106 2.654606e+05 4.993983e-01 -107 2.679168e+05 4.993982e-01 -108 2.703958e+05 4.993982e-01 -109 2.728978e+05 4.993982e-01 -110 2.754229e+05 4.993981e-01 -111 2.779713e+05 4.993981e-01 -112 2.805434e+05 4.993980e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -113 2.831392e+05 4.993980e-01 -114 2.857591e+05 4.993980e-01 -115 2.884032e+05 4.993979e-01 -116 2.910717e+05 4.993979e-01 -117 2.937650e+05 4.993978e-01 -118 2.964831e+05 4.993978e-01 -119 2.992265e+05 4.993977e-01 -120 3.019952e+05 4.993977e-01 -121 3.047895e+05 4.993976e-01 -122 3.076097e+05 4.993976e-01 -123 3.104560e+05 4.993975e-01 -124 3.133286e+05 4.993975e-01 -125 3.162278e+05 4.993974e-01 -126 3.191538e+05 4.993974e-01 -127 3.221069e+05 4.993973e-01 -128 3.250873e+05 4.993973e-01 -129 3.280953e+05 4.993972e-01 -130 3.311311e+05 4.993972e-01 -131 3.341950e+05 4.993971e-01 -132 3.372873e+05 4.993971e-01 -133 3.404082e+05 4.993970e-01 -134 3.435579e+05 4.993969e-01 -135 3.467369e+05 4.993969e-01 -136 3.499452e+05 4.993968e-01 -137 3.531832e+05 4.993967e-01 -138 3.564511e+05 4.993967e-01 -139 3.597493e+05 4.993966e-01 -140 3.630781e+05 4.993965e-01 -141 3.664376e+05 4.993965e-01 -142 3.698282e+05 4.993964e-01 -143 3.732502e+05 4.993963e-01 -144 3.767038e+05 4.993963e-01 -145 3.801894e+05 4.993962e-01 -146 3.837072e+05 4.993961e-01 -147 3.872576e+05 4.993960e-01 -148 3.908409e+05 4.993960e-01 -149 3.944573e+05 4.993959e-01 -150 3.981072e+05 4.993958e-01 -151 4.017908e+05 4.993957e-01 -152 4.055085e+05 4.993956e-01 -153 4.092607e+05 4.993955e-01 -154 4.130475e+05 4.993955e-01 -155 4.168694e+05 4.993954e-01 -156 4.207266e+05 4.993953e-01 -157 4.246196e+05 4.993952e-01 -158 4.285485e+05 4.993951e-01 -159 4.325138e+05 4.993950e-01 -160 4.365158e+05 4.993949e-01 -161 4.405549e+05 4.993948e-01 -162 4.446313e+05 4.993947e-01 -163 4.487454e+05 4.993946e-01 -164 4.528976e+05 4.993945e-01 -165 4.570882e+05 4.993944e-01 -166 4.613176e+05 4.993943e-01 -167 4.655861e+05 4.993942e-01 -168 4.698941e+05 4.993940e-01 -169 4.742420e+05 4.993939e-01 -170 4.786301e+05 4.993938e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -171 4.830588e+05 4.993937e-01 -172 4.875285e+05 4.993936e-01 -173 4.920395e+05 4.993934e-01 -174 4.965923e+05 4.993933e-01 -175 5.011872e+05 4.993932e-01 -176 5.058247e+05 4.993931e-01 -177 5.105050e+05 4.993929e-01 -178 5.152286e+05 4.993928e-01 -179 5.199960e+05 4.993926e-01 -180 5.248075e+05 4.993925e-01 -181 5.296634e+05 4.993924e-01 -182 5.345644e+05 4.993922e-01 -183 5.395106e+05 4.993921e-01 -184 5.445027e+05 4.993919e-01 -185 5.495409e+05 4.993918e-01 -186 5.546257e+05 4.993916e-01 -187 5.597576e+05 4.993914e-01 -188 5.649370e+05 4.993913e-01 -189 5.701643e+05 4.993911e-01 -190 5.754399e+05 4.993909e-01 -191 5.807644e+05 4.993908e-01 -192 5.861382e+05 4.993906e-01 -193 5.915616e+05 4.993904e-01 -194 5.970353e+05 4.993902e-01 -195 6.025596e+05 4.993900e-01 -196 6.081350e+05 4.993898e-01 -197 6.137620e+05 4.993897e-01 -198 6.194411e+05 4.993895e-01 -199 6.251727e+05 4.993893e-01 -200 6.309573e+05 4.993891e-01 -201 6.367955e+05 4.993888e-01 -202 6.426877e+05 4.993886e-01 -203 6.486344e+05 4.993884e-01 -204 6.546362e+05 4.993882e-01 -205 6.606934e+05 4.993880e-01 -206 6.668068e+05 4.993877e-01 -207 6.729767e+05 4.993875e-01 -208 6.792036e+05 4.993873e-01 -209 6.854882e+05 4.993870e-01 -210 6.918310e+05 4.993868e-01 -211 6.982324e+05 4.993865e-01 -212 7.046931e+05 4.993863e-01 -213 7.112135e+05 4.993860e-01 -214 7.177943e+05 4.993858e-01 -215 7.244360e+05 4.993855e-01 -216 7.311391e+05 4.993852e-01 -217 7.379042e+05 4.993849e-01 -218 7.447320e+05 4.993847e-01 -219 7.516229e+05 4.993844e-01 -220 7.585776e+05 4.993841e-01 -221 7.655966e+05 4.993838e-01 -222 7.726806e+05 4.993835e-01 -223 7.798301e+05 4.993832e-01 -224 7.870458e+05 4.993828e-01 -225 7.943282e+05 4.993825e-01 -226 8.016781e+05 4.993822e-01 -227 8.090959e+05 4.993818e-01 -228 8.165824e+05 4.993815e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -229 8.241381e+05 4.993812e-01 -230 8.317638e+05 4.993808e-01 -231 8.394600e+05 4.993804e-01 -232 8.472274e+05 4.993801e-01 -233 8.550667e+05 4.993797e-01 -234 8.629785e+05 4.993793e-01 -235 8.709636e+05 4.993789e-01 -236 8.790225e+05 4.993785e-01 -237 8.871560e+05 4.993781e-01 -238 8.953648e+05 4.993777e-01 -239 9.036495e+05 4.993773e-01 -240 9.120108e+05 4.993769e-01 -241 9.204496e+05 4.993764e-01 -242 9.289664e+05 4.993760e-01 -243 9.375620e+05 4.993755e-01 -244 9.462372e+05 4.993751e-01 -245 9.549926e+05 4.993746e-01 -246 9.638290e+05 4.993741e-01 -247 9.727472e+05 4.993737e-01 -248 9.817479e+05 4.993732e-01 -249 9.908319e+05 4.993727e-01 -250 1.000000e+06 4.993722e-01 -251 1.009253e+06 4.993716e-01 -252 1.018591e+06 4.993711e-01 -253 1.028016e+06 4.993706e-01 -254 1.037528e+06 4.993700e-01 -255 1.047129e+06 4.993695e-01 -256 1.056818e+06 4.993689e-01 -257 1.066596e+06 4.993683e-01 -258 1.076465e+06 4.993677e-01 -259 1.086426e+06 4.993671e-01 -260 1.096478e+06 4.993665e-01 -261 1.106624e+06 4.993659e-01 -262 1.116863e+06 4.993652e-01 -263 1.127197e+06 4.993646e-01 -264 1.137627e+06 4.993639e-01 -265 1.148154e+06 4.993632e-01 -266 1.158777e+06 4.993626e-01 -267 1.169499e+06 4.993619e-01 -268 1.180321e+06 4.993611e-01 -269 1.191242e+06 4.993604e-01 -270 1.202264e+06 4.993597e-01 -271 1.213389e+06 4.993589e-01 -272 1.224616e+06 4.993582e-01 -273 1.235947e+06 4.993574e-01 -274 1.247384e+06 4.993566e-01 -275 1.258925e+06 4.993558e-01 -276 1.270574e+06 4.993550e-01 -277 1.282331e+06 4.993541e-01 -278 1.294196e+06 4.993533e-01 -279 1.306171e+06 4.993524e-01 -280 1.318257e+06 4.993515e-01 -281 1.330454e+06 4.993506e-01 -282 1.342765e+06 4.993497e-01 -283 1.355189e+06 4.993488e-01 -284 1.367729e+06 4.993478e-01 -285 1.380384e+06 4.993468e-01 -286 1.393157e+06 4.993458e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -287 1.406048e+06 4.993448e-01 -288 1.419058e+06 4.993438e-01 -289 1.432188e+06 4.993428e-01 -290 1.445440e+06 4.993417e-01 -291 1.458814e+06 4.993406e-01 -292 1.472313e+06 4.993395e-01 -293 1.485936e+06 4.993384e-01 -294 1.499685e+06 4.993372e-01 -295 1.513561e+06 4.993361e-01 -296 1.527566e+06 4.993349e-01 -297 1.541700e+06 4.993337e-01 -298 1.555966e+06 4.993325e-01 -299 1.570363e+06 4.993312e-01 -300 1.584893e+06 4.993299e-01 -301 1.599558e+06 4.993286e-01 -302 1.614359e+06 4.993273e-01 -303 1.629296e+06 4.993260e-01 -304 1.644372e+06 4.993246e-01 -305 1.659587e+06 4.993232e-01 -306 1.674943e+06 4.993218e-01 -307 1.690441e+06 4.993203e-01 -308 1.706082e+06 4.993188e-01 -309 1.721869e+06 4.993173e-01 -310 1.737801e+06 4.993158e-01 -311 1.753881e+06 4.993142e-01 -312 1.770109e+06 4.993127e-01 -313 1.786488e+06 4.993110e-01 -314 1.803018e+06 4.993094e-01 -315 1.819701e+06 4.993077e-01 -316 1.836538e+06 4.993060e-01 -317 1.853532e+06 4.993043e-01 -318 1.870682e+06 4.993025e-01 -319 1.887991e+06 4.993007e-01 -320 1.905461e+06 4.992989e-01 -321 1.923092e+06 4.992970e-01 -322 1.940886e+06 4.992951e-01 -323 1.958845e+06 4.992932e-01 -324 1.976970e+06 4.992912e-01 -325 1.995262e+06 4.992892e-01 -326 2.013724e+06 4.992871e-01 -327 2.032357e+06 4.992851e-01 -328 2.051162e+06 4.992829e-01 -329 2.070141e+06 4.992808e-01 -330 2.089296e+06 4.992786e-01 -331 2.108628e+06 4.992763e-01 -332 2.128139e+06 4.992741e-01 -333 2.147830e+06 4.992717e-01 -334 2.167704e+06 4.992694e-01 -335 2.187762e+06 4.992670e-01 -336 2.208005e+06 4.992645e-01 -337 2.228435e+06 4.992620e-01 -338 2.249055e+06 4.992595e-01 -339 2.269865e+06 4.992569e-01 -340 2.290868e+06 4.992543e-01 -341 2.312065e+06 4.992516e-01 -342 2.333458e+06 4.992489e-01 -343 2.355049e+06 4.992461e-01 -344 2.376840e+06 4.992433e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -345 2.398833e+06 4.992404e-01 -346 2.421029e+06 4.992374e-01 -347 2.443431e+06 4.992345e-01 -348 2.466039e+06 4.992314e-01 -349 2.488857e+06 4.992283e-01 -350 2.511886e+06 4.992252e-01 -351 2.535129e+06 4.992220e-01 -352 2.558586e+06 4.992187e-01 -353 2.582260e+06 4.992154e-01 -354 2.606154e+06 4.992120e-01 -355 2.630268e+06 4.992086e-01 -356 2.654606e+06 4.992051e-01 -357 2.679168e+06 4.992015e-01 -358 2.703958e+06 4.991979e-01 -359 2.728978e+06 4.991942e-01 -360 2.754229e+06 4.991904e-01 -361 2.779713e+06 4.991866e-01 -362 2.805434e+06 4.991827e-01 -363 2.831392e+06 4.991787e-01 -364 2.857591e+06 4.991746e-01 -365 2.884032e+06 4.991705e-01 -366 2.910717e+06 4.991664e-01 -367 2.937650e+06 4.991621e-01 -368 2.964831e+06 4.991578e-01 -369 2.992265e+06 4.991533e-01 -370 3.019952e+06 4.991488e-01 -371 3.047895e+06 4.991443e-01 -372 3.076097e+06 4.991396e-01 -373 3.104560e+06 4.991349e-01 -374 3.133286e+06 4.991301e-01 -375 3.162278e+06 4.991252e-01 -376 3.191538e+06 4.991202e-01 -377 3.221069e+06 4.991151e-01 -378 3.250873e+06 4.991099e-01 -379 3.280953e+06 4.991046e-01 -380 3.311311e+06 4.990993e-01 -381 3.341950e+06 4.990938e-01 -382 3.372873e+06 4.990883e-01 -383 3.404082e+06 4.990826e-01 -384 3.435579e+06 4.990769e-01 -385 3.467369e+06 4.990711e-01 -386 3.499452e+06 4.990651e-01 -387 3.531832e+06 4.990591e-01 -388 3.564511e+06 4.990529e-01 -389 3.597493e+06 4.990466e-01 -390 3.630781e+06 4.990403e-01 -391 3.664376e+06 4.990338e-01 -392 3.698282e+06 4.990272e-01 -393 3.732502e+06 4.990205e-01 -394 3.767038e+06 4.990136e-01 -395 3.801894e+06 4.990067e-01 -396 3.837072e+06 4.989996e-01 -397 3.872576e+06 4.989924e-01 -398 3.908409e+06 4.989851e-01 -399 3.944573e+06 4.989776e-01 -400 3.981072e+06 4.989701e-01 -401 4.017908e+06 4.989624e-01 -402 4.055085e+06 4.989545e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -403 4.092607e+06 4.989466e-01 -404 4.130475e+06 4.989384e-01 -405 4.168694e+06 4.989302e-01 -406 4.207266e+06 4.989218e-01 -407 4.246196e+06 4.989133e-01 -408 4.285485e+06 4.989046e-01 -409 4.325138e+06 4.988958e-01 -410 4.365158e+06 4.988868e-01 -411 4.405549e+06 4.988777e-01 -412 4.446313e+06 4.988684e-01 -413 4.487454e+06 4.988589e-01 -414 4.528976e+06 4.988493e-01 -415 4.570882e+06 4.988396e-01 -416 4.613176e+06 4.988296e-01 -417 4.655861e+06 4.988196e-01 -418 4.698941e+06 4.988093e-01 -419 4.742420e+06 4.987989e-01 -420 4.786301e+06 4.987882e-01 -421 4.830588e+06 4.987775e-01 -422 4.875285e+06 4.987665e-01 -423 4.920395e+06 4.987553e-01 -424 4.965923e+06 4.987440e-01 -425 5.011872e+06 4.987325e-01 -426 5.058247e+06 4.987208e-01 -427 5.105050e+06 4.987088e-01 -428 5.152286e+06 4.986967e-01 -429 5.199960e+06 4.986844e-01 -430 5.248075e+06 4.986719e-01 -431 5.296634e+06 4.986592e-01 -432 5.345644e+06 4.986463e-01 -433 5.395106e+06 4.986332e-01 -434 5.445027e+06 4.986198e-01 -435 5.495409e+06 4.986063e-01 -436 5.546257e+06 4.985925e-01 -437 5.597576e+06 4.985785e-01 -438 5.649370e+06 4.985643e-01 -439 5.701643e+06 4.985498e-01 -440 5.754399e+06 4.985351e-01 -441 5.807644e+06 4.985202e-01 -442 5.861382e+06 4.985051e-01 -443 5.915616e+06 4.984897e-01 -444 5.970353e+06 4.984740e-01 -445 6.025596e+06 4.984581e-01 -446 6.081350e+06 4.984420e-01 -447 6.137620e+06 4.984256e-01 -448 6.194411e+06 4.984090e-01 -449 6.251727e+06 4.983921e-01 -450 6.309573e+06 4.983749e-01 -451 6.367955e+06 4.983574e-01 -452 6.426877e+06 4.983397e-01 -453 6.486344e+06 4.983218e-01 -454 6.546362e+06 4.983035e-01 -455 6.606934e+06 4.982850e-01 -456 6.668068e+06 4.982661e-01 -457 6.729767e+06 4.982470e-01 -458 6.792036e+06 4.982276e-01 -459 6.854882e+06 4.982079e-01 -460 6.918310e+06 4.981880e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -461 6.982324e+06 4.981677e-01 -462 7.046931e+06 4.981471e-01 -463 7.112135e+06 4.981262e-01 -464 7.177943e+06 4.981050e-01 -465 7.244360e+06 4.980834e-01 -466 7.311391e+06 4.980616e-01 -467 7.379042e+06 4.980394e-01 -468 7.447320e+06 4.980170e-01 -469 7.516229e+06 4.979942e-01 -470 7.585776e+06 4.979710e-01 -471 7.655966e+06 4.979475e-01 -472 7.726806e+06 4.979237e-01 -473 7.798301e+06 4.978996e-01 -474 7.870458e+06 4.978751e-01 -475 7.943282e+06 4.978502e-01 -476 8.016781e+06 4.978250e-01 -477 8.090959e+06 4.977995e-01 -478 8.165824e+06 4.977736e-01 -479 8.241381e+06 4.977473e-01 -480 8.317638e+06 4.977207e-01 -481 8.394600e+06 4.976937e-01 -482 8.472274e+06 4.976663e-01 -483 8.550667e+06 4.976386e-01 -484 8.629785e+06 4.976104e-01 -485 8.709636e+06 4.975819e-01 -486 8.790225e+06 4.975530e-01 -487 8.871560e+06 4.975238e-01 -488 8.953648e+06 4.974941e-01 -489 9.036495e+06 4.974640e-01 -490 9.120108e+06 4.974336e-01 -491 9.204496e+06 4.974027e-01 -492 9.289664e+06 4.973715e-01 -493 9.375620e+06 4.973398e-01 -494 9.462372e+06 4.973077e-01 -495 9.549926e+06 4.972752e-01 -496 9.638290e+06 4.972424e-01 -497 9.727472e+06 4.972090e-01 -498 9.817479e+06 4.971753e-01 -499 9.908319e+06 4.971412e-01 -500 1.000000e+07 4.971066e-01 -501 1.009253e+07 4.970716e-01 -502 1.018591e+07 4.970361e-01 -503 1.028016e+07 4.970002e-01 -504 1.037528e+07 4.969639e-01 -505 1.047129e+07 4.969272e-01 -506 1.056818e+07 4.968900e-01 -507 1.066596e+07 4.968524e-01 -508 1.076465e+07 4.968143e-01 -509 1.086426e+07 4.967758e-01 -510 1.096478e+07 4.967368e-01 -511 1.106624e+07 4.966974e-01 -512 1.116863e+07 4.966575e-01 -513 1.127197e+07 4.966171e-01 -514 1.137627e+07 4.965763e-01 -515 1.148154e+07 4.965351e-01 -516 1.158777e+07 4.964933e-01 -517 1.169499e+07 4.964512e-01 -518 1.180321e+07 4.964085e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -519 1.191242e+07 4.963654e-01 -520 1.202264e+07 4.963218e-01 -521 1.213389e+07 4.962777e-01 -522 1.224616e+07 4.962332e-01 -523 1.235947e+07 4.961882e-01 -524 1.247384e+07 4.961427e-01 -525 1.258925e+07 4.960967e-01 -526 1.270574e+07 4.960502e-01 -527 1.282331e+07 4.960033e-01 -528 1.294196e+07 4.959559e-01 -529 1.306171e+07 4.959080e-01 -530 1.318257e+07 4.958596e-01 -531 1.330454e+07 4.958107e-01 -532 1.342765e+07 4.957613e-01 -533 1.355189e+07 4.957115e-01 -534 1.367729e+07 4.956611e-01 -535 1.380384e+07 4.956103e-01 -536 1.393157e+07 4.955589e-01 -537 1.406048e+07 4.955071e-01 -538 1.419058e+07 4.954548e-01 -539 1.432188e+07 4.954020e-01 -540 1.445440e+07 4.953486e-01 -541 1.458814e+07 4.952948e-01 -542 1.472313e+07 4.952405e-01 -543 1.485936e+07 4.951857e-01 -544 1.499685e+07 4.951303e-01 -545 1.513561e+07 4.950745e-01 -546 1.527566e+07 4.950182e-01 -547 1.541700e+07 4.949613e-01 -548 1.555966e+07 4.949040e-01 -549 1.570363e+07 4.948461e-01 -550 1.584893e+07 4.947877e-01 -551 1.599558e+07 4.947289e-01 -552 1.614359e+07 4.946695e-01 -553 1.629296e+07 4.946096e-01 -554 1.644372e+07 4.945492e-01 -555 1.659587e+07 4.944882e-01 -556 1.674943e+07 4.944268e-01 -557 1.690441e+07 4.943648e-01 -558 1.706082e+07 4.943023e-01 -559 1.721869e+07 4.942393e-01 -560 1.737801e+07 4.941758e-01 -561 1.753881e+07 4.941118e-01 -562 1.770109e+07 4.940472e-01 -563 1.786488e+07 4.939821e-01 -564 1.803018e+07 4.939165e-01 -565 1.819701e+07 4.938504e-01 -566 1.836538e+07 4.937837e-01 -567 1.853532e+07 4.937165e-01 -568 1.870682e+07 4.936488e-01 -569 1.887991e+07 4.935805e-01 -570 1.905461e+07 4.935117e-01 -571 1.923092e+07 4.934423e-01 -572 1.940886e+07 4.933724e-01 -573 1.958845e+07 4.933020e-01 -574 1.976970e+07 4.932310e-01 -575 1.995262e+07 4.931595e-01 -576 2.013724e+07 4.930874e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -577 2.032357e+07 4.930148e-01 -578 2.051162e+07 4.929416e-01 -579 2.070141e+07 4.928679e-01 -580 2.089296e+07 4.927936e-01 -581 2.108628e+07 4.927187e-01 -582 2.128139e+07 4.926433e-01 -583 2.147830e+07 4.925673e-01 -584 2.167704e+07 4.924908e-01 -585 2.187762e+07 4.924136e-01 -586 2.208005e+07 4.923359e-01 -587 2.228435e+07 4.922576e-01 -588 2.249055e+07 4.921788e-01 -589 2.269865e+07 4.920993e-01 -590 2.290868e+07 4.920193e-01 -591 2.312065e+07 4.919386e-01 -592 2.333458e+07 4.918574e-01 -593 2.355049e+07 4.917756e-01 -594 2.376840e+07 4.916931e-01 -595 2.398833e+07 4.916101e-01 -596 2.421029e+07 4.915264e-01 -597 2.443431e+07 4.914421e-01 -598 2.466039e+07 4.913572e-01 -599 2.488857e+07 4.912717e-01 -600 2.511886e+07 4.911856e-01 -601 2.535129e+07 4.910988e-01 -602 2.558586e+07 4.910114e-01 -603 2.582260e+07 4.909233e-01 -604 2.606154e+07 4.908346e-01 -605 2.630268e+07 4.907453e-01 -606 2.654606e+07 4.906553e-01 -607 2.679168e+07 4.905646e-01 -608 2.703958e+07 4.904733e-01 -609 2.728978e+07 4.903814e-01 -610 2.754229e+07 4.902887e-01 -611 2.779713e+07 4.901954e-01 -612 2.805434e+07 4.901015e-01 -613 2.831392e+07 4.900068e-01 -614 2.857591e+07 4.899115e-01 -615 2.884032e+07 4.898155e-01 -616 2.910717e+07 4.897188e-01 -617 2.937650e+07 4.896214e-01 -618 2.964831e+07 4.895233e-01 -619 2.992265e+07 4.894245e-01 -620 3.019952e+07 4.893251e-01 -621 3.047895e+07 4.892249e-01 -622 3.076097e+07 4.891240e-01 -623 3.104560e+07 4.890224e-01 -624 3.133286e+07 4.889201e-01 -625 3.162278e+07 4.888172e-01 -626 3.191538e+07 4.887135e-01 -627 3.221069e+07 4.886091e-01 -628 3.250873e+07 4.885039e-01 -629 3.280953e+07 4.883981e-01 -630 3.311311e+07 4.882916e-01 -631 3.341950e+07 4.881844e-01 -632 3.372873e+07 4.880764e-01 -633 3.404082e+07 4.879678e-01 -634 3.435579e+07 4.878584e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -635 3.467369e+07 4.877484e-01 -636 3.499452e+07 4.876377e-01 -637 3.531832e+07 4.875263e-01 -638 3.564511e+07 4.874141e-01 -639 3.597493e+07 4.873014e-01 -640 3.630781e+07 4.871879e-01 -641 3.664376e+07 4.870737e-01 -642 3.698282e+07 4.869590e-01 -643 3.732502e+07 4.868435e-01 -644 3.767038e+07 4.867274e-01 -645 3.801894e+07 4.866107e-01 -646 3.837072e+07 4.864933e-01 -647 3.872576e+07 4.863753e-01 -648 3.908409e+07 4.862568e-01 -649 3.944573e+07 4.861376e-01 -650 3.981072e+07 4.860179e-01 -651 4.017908e+07 4.858976e-01 -652 4.055085e+07 4.857767e-01 -653 4.092607e+07 4.856554e-01 -654 4.130475e+07 4.855335e-01 -655 4.168694e+07 4.854111e-01 -656 4.207266e+07 4.852883e-01 -657 4.246196e+07 4.851650e-01 -658 4.285485e+07 4.850413e-01 -659 4.325138e+07 4.849171e-01 -660 4.365158e+07 4.847926e-01 -661 4.405549e+07 4.846678e-01 -662 4.446313e+07 4.845426e-01 -663 4.487454e+07 4.844172e-01 -664 4.528976e+07 4.842915e-01 -665 4.570882e+07 4.841655e-01 -666 4.613176e+07 4.840394e-01 -667 4.655861e+07 4.839131e-01 -668 4.698941e+07 4.837867e-01 -669 4.742420e+07 4.836601e-01 -670 4.786301e+07 4.835336e-01 -671 4.830588e+07 4.834071e-01 -672 4.875285e+07 4.832805e-01 -673 4.920395e+07 4.831541e-01 -674 4.965923e+07 4.830279e-01 -675 5.011872e+07 4.829018e-01 -676 5.058247e+07 4.827759e-01 -677 5.105050e+07 4.826504e-01 -678 5.152286e+07 4.825251e-01 -679 5.199960e+07 4.824003e-01 -680 5.248075e+07 4.822760e-01 -681 5.296634e+07 4.821522e-01 -682 5.345644e+07 4.820289e-01 -683 5.395106e+07 4.819063e-01 -684 5.445027e+07 4.817844e-01 -685 5.495409e+07 4.816634e-01 -686 5.546257e+07 4.815431e-01 -687 5.597576e+07 4.814238e-01 -688 5.649370e+07 4.813056e-01 -689 5.701643e+07 4.811884e-01 -690 5.754399e+07 4.810723e-01 -691 5.807644e+07 4.809575e-01 -692 5.861382e+07 4.808441e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -693 5.915616e+07 4.807320e-01 -694 5.970353e+07 4.806215e-01 -695 6.025596e+07 4.805126e-01 -696 6.081350e+07 4.804053e-01 -697 6.137620e+07 4.802998e-01 -698 6.194411e+07 4.801962e-01 -699 6.251727e+07 4.800946e-01 -700 6.309573e+07 4.799951e-01 -701 6.367955e+07 4.798977e-01 -702 6.426877e+07 4.798026e-01 -703 6.486344e+07 4.797099e-01 -704 6.546362e+07 4.796197e-01 -705 6.606934e+07 4.795320e-01 -706 6.668068e+07 4.794471e-01 -707 6.729767e+07 4.793650e-01 -708 6.792036e+07 4.792859e-01 -709 6.854882e+07 4.792097e-01 -710 6.918310e+07 4.791367e-01 -711 6.982324e+07 4.790670e-01 -712 7.046931e+07 4.790007e-01 -713 7.112135e+07 4.789379e-01 -714 7.177943e+07 4.788787e-01 -715 7.244360e+07 4.788232e-01 -716 7.311391e+07 4.787716e-01 -717 7.379042e+07 4.787239e-01 -718 7.447320e+07 4.786804e-01 -719 7.516229e+07 4.786410e-01 -720 7.585776e+07 4.786059e-01 -721 7.655966e+07 4.785752e-01 -722 7.726806e+07 4.785490e-01 -723 7.798301e+07 4.785275e-01 -724 7.870458e+07 4.785107e-01 -725 7.943282e+07 4.784988e-01 -726 8.016781e+07 4.784918e-01 -727 8.090959e+07 4.784898e-01 -728 8.165824e+07 4.784930e-01 -729 8.241381e+07 4.785013e-01 -730 8.317638e+07 4.785150e-01 -731 8.394600e+07 4.785341e-01 -732 8.472274e+07 4.785585e-01 -733 8.550667e+07 4.785885e-01 -734 8.629785e+07 4.786241e-01 -735 8.709636e+07 4.786653e-01 -736 8.790225e+07 4.787122e-01 -737 8.871560e+07 4.787647e-01 -738 8.953648e+07 4.788230e-01 -739 9.036495e+07 4.788871e-01 -740 9.120108e+07 4.789569e-01 -741 9.204496e+07 4.790324e-01 -742 9.289664e+07 4.791137e-01 -743 9.375620e+07 4.792007e-01 -744 9.462372e+07 4.792933e-01 -745 9.549926e+07 4.793915e-01 -746 9.638290e+07 4.794953e-01 -747 9.727472e+07 4.796045e-01 -748 9.817479e+07 4.797190e-01 -749 9.908319e+07 4.798387e-01 -750 1.000000e+08 4.799636e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -751 1.009253e+08 4.800933e-01 -752 1.018591e+08 4.802278e-01 -753 1.028016e+08 4.803669e-01 -754 1.037528e+08 4.805103e-01 -755 1.047129e+08 4.806578e-01 -756 1.056818e+08 4.808091e-01 -757 1.066596e+08 4.809640e-01 -758 1.076465e+08 4.811221e-01 -759 1.086426e+08 4.812831e-01 -760 1.096478e+08 4.814467e-01 -761 1.106624e+08 4.816124e-01 -762 1.116863e+08 4.817799e-01 -763 1.127197e+08 4.819487e-01 -764 1.137627e+08 4.821184e-01 -765 1.148154e+08 4.822885e-01 -766 1.158777e+08 4.824584e-01 -767 1.169499e+08 4.826276e-01 -768 1.180321e+08 4.827955e-01 -769 1.191242e+08 4.829617e-01 -770 1.202264e+08 4.831253e-01 -771 1.213389e+08 4.832858e-01 -772 1.224616e+08 4.834426e-01 -773 1.235947e+08 4.835949e-01 -774 1.247384e+08 4.837419e-01 -775 1.258925e+08 4.838831e-01 -776 1.270574e+08 4.840176e-01 -777 1.282331e+08 4.841446e-01 -778 1.294196e+08 4.842634e-01 -779 1.306171e+08 4.843731e-01 -780 1.318257e+08 4.844730e-01 -781 1.330454e+08 4.845623e-01 -782 1.342765e+08 4.846400e-01 -783 1.355189e+08 4.847055e-01 -784 1.367729e+08 4.847579e-01 -785 1.380384e+08 4.847964e-01 -786 1.393157e+08 4.848202e-01 -787 1.406048e+08 4.848285e-01 -788 1.419058e+08 4.848206e-01 -789 1.432188e+08 4.847957e-01 -790 1.445440e+08 4.847532e-01 -791 1.458814e+08 4.846924e-01 -792 1.472313e+08 4.846127e-01 -793 1.485936e+08 4.845136e-01 -794 1.499685e+08 4.843944e-01 -795 1.513561e+08 4.842549e-01 -796 1.527566e+08 4.840945e-01 -797 1.541700e+08 4.839131e-01 -798 1.555966e+08 4.837103e-01 -799 1.570363e+08 4.834861e-01 -800 1.584893e+08 4.832404e-01 -801 1.599558e+08 4.829732e-01 -802 1.614359e+08 4.826846e-01 -803 1.629296e+08 4.823751e-01 -804 1.644372e+08 4.820448e-01 -805 1.659587e+08 4.816943e-01 -806 1.674943e+08 4.813241e-01 -807 1.690441e+08 4.809350e-01 -808 1.706082e+08 4.805279e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -809 1.721869e+08 4.801035e-01 -810 1.737801e+08 4.796632e-01 -811 1.753881e+08 4.792079e-01 -812 1.770109e+08 4.787391e-01 -813 1.786488e+08 4.782581e-01 -814 1.803018e+08 4.777666e-01 -815 1.819701e+08 4.772662e-01 -816 1.836538e+08 4.767586e-01 -817 1.853532e+08 4.762457e-01 -818 1.870682e+08 4.757296e-01 -819 1.887991e+08 4.752122e-01 -820 1.905461e+08 4.746957e-01 -821 1.923092e+08 4.741823e-01 -822 1.940886e+08 4.736743e-01 -823 1.958845e+08 4.731739e-01 -824 1.976970e+08 4.726836e-01 -825 1.995262e+08 4.722056e-01 -826 2.013724e+08 4.717424e-01 -827 2.032357e+08 4.712964e-01 -828 2.051162e+08 4.708698e-01 -829 2.070141e+08 4.704651e-01 -830 2.089296e+08 4.700845e-01 -831 2.108628e+08 4.697301e-01 -832 2.128139e+08 4.694042e-01 -833 2.147830e+08 4.691086e-01 -834 2.167704e+08 4.688453e-01 -835 2.187762e+08 4.686160e-01 -836 2.208005e+08 4.684222e-01 -837 2.228435e+08 4.682653e-01 -838 2.249055e+08 4.681465e-01 -839 2.269865e+08 4.680667e-01 -840 2.290868e+08 4.680264e-01 -841 2.312065e+08 4.680262e-01 -842 2.333458e+08 4.680661e-01 -843 2.355049e+08 4.681458e-01 -844 2.376840e+08 4.682648e-01 -845 2.398833e+08 4.684221e-01 -846 2.421029e+08 4.686163e-01 -847 2.443431e+08 4.688458e-01 -848 2.466039e+08 4.691084e-01 -849 2.488857e+08 4.694015e-01 -850 2.511886e+08 4.697221e-01 -851 2.535129e+08 4.700669e-01 -852 2.558586e+08 4.704318e-01 -853 2.582260e+08 4.708128e-01 -854 2.606154e+08 4.712049e-01 -855 2.630268e+08 4.716033e-01 -856 2.654606e+08 4.720024e-01 -857 2.679168e+08 4.723966e-01 -858 2.703958e+08 4.727798e-01 -859 2.728978e+08 4.731459e-01 -860 2.754229e+08 4.734885e-01 -861 2.779713e+08 4.738014e-01 -862 2.805434e+08 4.740781e-01 -863 2.831392e+08 4.743126e-01 -864 2.857591e+08 4.744990e-01 -865 2.884032e+08 4.746318e-01 -866 2.910717e+08 4.747059e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -867 2.937650e+08 4.747169e-01 -868 2.964831e+08 4.746611e-01 -869 2.992265e+08 4.745358e-01 -870 3.019952e+08 4.743389e-01 -871 3.047895e+08 4.740696e-01 -872 3.076097e+08 4.737282e-01 -873 3.104560e+08 4.733160e-01 -874 3.133286e+08 4.728357e-01 -875 3.162278e+08 4.722910e-01 -876 3.191538e+08 4.716871e-01 -877 3.221069e+08 4.710301e-01 -878 3.250873e+08 4.703274e-01 -879 3.280953e+08 4.695873e-01 -880 3.311311e+08 4.688192e-01 -881 3.341950e+08 4.680330e-01 -882 3.372873e+08 4.672395e-01 -883 3.404082e+08 4.664500e-01 -884 3.435579e+08 4.656758e-01 -885 3.467369e+08 4.649286e-01 -886 3.499452e+08 4.642199e-01 -887 3.531832e+08 4.635610e-01 -888 3.564511e+08 4.629626e-01 -889 3.597493e+08 4.624347e-01 -890 3.630781e+08 4.619864e-01 -891 3.664376e+08 4.616259e-01 -892 3.698282e+08 4.613597e-01 -893 3.732502e+08 4.611933e-01 -894 3.767038e+08 4.611300e-01 -895 3.801894e+08 4.611716e-01 -896 3.837072e+08 4.613177e-01 -897 3.872576e+08 4.615658e-01 -898 3.908409e+08 4.619112e-01 -899 3.944573e+08 4.623468e-01 -900 3.981072e+08 4.628629e-01 -901 4.017908e+08 4.634476e-01 -902 4.055085e+08 4.640867e-01 -903 4.092607e+08 4.647637e-01 -904 4.130475e+08 4.654601e-01 -905 4.168694e+08 4.661560e-01 -906 4.207266e+08 4.668301e-01 -907 4.246196e+08 4.674606e-01 -908 4.285485e+08 4.680255e-01 -909 4.325138e+08 4.685036e-01 -910 4.365158e+08 4.688752e-01 -911 4.405549e+08 4.691227e-01 -912 4.446313e+08 4.692319e-01 -913 4.487454e+08 4.691923e-01 -914 4.528976e+08 4.689978e-01 -915 4.570882e+08 4.686477e-01 -916 4.613176e+08 4.681462e-01 -917 4.655861e+08 4.675035e-01 -918 4.698941e+08 4.667347e-01 -919 4.742420e+08 4.658602e-01 -920 4.786301e+08 4.649046e-01 -921 4.830588e+08 4.638965e-01 -922 4.875285e+08 4.628667e-01 -923 4.920395e+08 4.618482e-01 -924 4.965923e+08 4.608739e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -925 5.011872e+08 4.599767e-01 -926 5.058247e+08 4.591874e-01 -927 5.105050e+08 4.585337e-01 -928 5.152286e+08 4.580398e-01 -929 5.199960e+08 4.577247e-01 -930 5.248075e+08 4.576016e-01 -931 5.296634e+08 4.576771e-01 -932 5.345644e+08 4.579505e-01 -933 5.395106e+08 4.584131e-01 -934 5.445027e+08 4.590484e-01 -935 5.495409e+08 4.598314e-01 -936 5.546257e+08 4.607294e-01 -937 5.597576e+08 4.617021e-01 -938 5.649370e+08 4.627033e-01 -939 5.701643e+08 4.636822e-01 -940 5.754399e+08 4.645860e-01 -941 5.807644e+08 4.653622e-01 -942 5.861382e+08 4.659619e-01 -943 5.915616e+08 4.663433e-01 -944 5.970353e+08 4.664749e-01 -945 6.025596e+08 4.663381e-01 -946 6.081350e+08 4.659297e-01 -947 6.137620e+08 4.652629e-01 -948 6.194411e+08 4.643669e-01 -949 6.251727e+08 4.632862e-01 -950 6.309573e+08 4.620779e-01 -951 6.367955e+08 4.608082e-01 -952 6.426877e+08 4.595487e-01 -953 6.486344e+08 4.583719e-01 -954 6.546362e+08 4.573472e-01 -955 6.606934e+08 4.565366e-01 -956 6.668068e+08 4.559909e-01 -957 6.729767e+08 4.557466e-01 -958 6.792036e+08 4.558232e-01 -959 6.854882e+08 4.562209e-01 -960 6.918310e+08 4.569191e-01 -961 6.982324e+08 4.578763e-01 -962 7.046931e+08 4.590301e-01 -963 7.112135e+08 4.602998e-01 -964 7.177943e+08 4.615902e-01 -965 7.244360e+08 4.627977e-01 -966 7.311391e+08 4.638180e-01 -967 7.379042e+08 4.645557e-01 -968 7.447320e+08 4.649343e-01 -969 7.516229e+08 4.649055e-01 -970 7.585776e+08 4.644564e-01 -971 7.655966e+08 4.636128e-01 -972 7.726806e+08 4.624388e-01 -973 7.798301e+08 4.610312e-01 -974 7.870458e+08 4.595110e-01 -975 7.943282e+08 4.580117e-01 -976 8.016781e+08 4.566675e-01 -977 8.090959e+08 4.556008e-01 -978 8.165824e+08 4.549119e-01 -979 8.241381e+08 4.546695e-01 -980 8.317638e+08 4.549041e-01 -981 8.394600e+08 4.556026e-01 -982 8.472274e+08 4.567062e-01 - -Index frequency mag(v(11)-v(12) --------------------------------------------------------------------------------- -983 8.550667e+08 4.581114e-01 -984 8.629785e+08 4.596757e-01 -985 8.709636e+08 4.612276e-01 -986 8.790225e+08 4.625842e-01 -987 8.871560e+08 4.635724e-01 -988 8.953648e+08 4.640539e-01 -989 9.036495e+08 4.639480e-01 -990 9.120108e+08 4.632479e-01 -991 9.204496e+08 4.620263e-01 -992 9.289664e+08 4.604278e-01 -993 9.375620e+08 4.586500e-01 -994 9.462372e+08 4.569168e-01 -995 9.549926e+08 4.554495e-01 -996 9.638290e+08 4.544384e-01 -997 9.727472e+08 4.540204e-01 -998 9.817479e+08 4.542608e-01 -999 9.908319e+08 4.551419e-01 -1000 1.000000e+09 4.565586e-01 - -CPU time since last call: 0.042 seconds. - -Total CPU time: 0.042 seconds. - -Total DRAM available = 7835.261719 MB. -DRAM currently available = 4869.222656 MB. -Total ngspice program size = 7.068359 MB. -Resident set size = 769.000 kB. -Shared ngspice pages = 527.000 kB. -Text (code) pages = 1.329102 MB. -Stack = 0 bytes. -Library pages = 317.000 kB. - diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901002_V34.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901002_V34.cable_spec deleted file mode 100644 index 07ccb53..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901002_V34.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.360E-03 # parameter 2: inner conductor separation - 6.400E-04 # parameter 3: inner dielectric radius - 4.931E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901019_V14.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901019_V14.cable_spec deleted file mode 100644 index 3a18e95..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901019_V14.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.520E-03 # parameter 2: inner conductor separation - 7.400E-04 # parameter 3: inner dielectric radius - 4.762E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901025_V10.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901025_V10.cable_spec deleted file mode 100644 index 4842d47..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_20_ESCC_3901025_V10.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 4.370E-04 # parameter 1: inner conductor radius - 1.240E-03 # parameter 2: inner conductor separation - 6.150E-04 # parameter 3: inner dielectric radius - 4.762E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901002_V33.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901002_V33.cable_spec deleted file mode 100644 index 0751e36..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901002_V33.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.478E-04 # parameter 1: inner conductor radius - 1.160E-03 # parameter 2: inner conductor separation - 5.400E-04 # parameter 3: inner dielectric radius - 4.919E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901019_V13.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901019_V13.cable_spec deleted file mode 100644 index 6accf0d..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901019_V13.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.568E-04 # parameter 1: inner conductor radius - 1.250E-03 # parameter 2: inner conductor separation - 6.200E-04 # parameter 3: inner dielectric radius - 3.968E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901025_V09.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901025_V09.cable_spec deleted file mode 100644 index de15ac8..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_22_ESCC_3901025_V09.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 3.568E-04 # parameter 1: inner conductor radius - 1.100E-03 # parameter 2: inner conductor separation - 5.450E-04 # parameter 3: inner dielectric radius - 3.968E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901002_V32.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901002_V32.cable_spec deleted file mode 100644 index fa67b1a..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901002_V32.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.585E-04 # parameter 1: inner conductor radius - 9.600E-04 # parameter 2: inner conductor separation - 4.400E-04 # parameter 3: inner dielectric radius - 4.329E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901019_V12.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901019_V12.cable_spec deleted file mode 100644 index e2c9e15..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901019_V12.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.821E-04 # parameter 1: inner conductor radius - 1.170E-03 # parameter 2: inner conductor separation - 5.650E-04 # parameter 3: inner dielectric radius - 3.333E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 3.400E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901025_V08.cable_spec b/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901025_V08.cable_spec deleted file mode 100644 index 5f5e329..0000000 --- a/SPACECRAFT_CABLE_MOD/TWISTED_PAIR_CABLE_MODELS/TP_AWG_24_ESCC_3901025_V08.cable_spec +++ /dev/null @@ -1,16 +0,0 @@ -#MOD_cable_lib_dir -LIBRARY_OF_CABLE_MODELS -Twisted_pair -2 # number of conductors -4 # number of parameters - 2.821E-04 # parameter 1: inner conductor radius - 9.000E-04 # parameter 2: inner conductor separation - 4.450E-04 # parameter 3: inner dielectric radius - 3.333E+07 # parameter 4: conductivity -1 # number of frequency dependent parameters -# Dielectric relative permittivity model follows -1.0 # w normalisation constant -0 # a order, a coefficients follow below: - 2.100E+00 -0 # b order, b coefficients follow below: -1.0 diff --git a/SPACECRAFT_CABLE_MOD/build_mod b/SPACECRAFT_CABLE_MOD/build_mod deleted file mode 100644 index e59353b..0000000 --- a/SPACECRAFT_CABLE_MOD/build_mod +++ /dev/null @@ -1,106 +0,0 @@ -#!/bin/bash -# -# This is a script to build a library of cable models from -# a set of test cases -# -# Copyright (C) 2015 Chris Smartt -# -# This program is free software: you can redistribute it and/or modify -# it under the terms of the GNU General Public License as published by -# the Free Software Foundation, either version 3 of the License, or -# (at your option) any later version. See license.txt for more details. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License -# along with this program. If not, see . - -source gnuplot_functions - -# get the path to the TEST_CASE directory- note a special method is used in cygwin... -if [ "$OSTYPE" == "cygwin" ]; then - TEST_CASE_DIRECTORY=$( cygpath -m $(pwd) ) -else - TEST_CASE_DIRECTORY=$( pwd ) -fi - -PROJECT_DIRECTORY=$( dirname ${TEST_CASE_DIRECTORY} ) - -LIBRARY_OF_MODELS_TOP_LEVEL="${TEST_CASE_DIRECTORY}/MOD_SPACE_CABLES" - -LIBRARY_OF_CABLE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/CABLE" - -LIBRARY_OF_BUNDLE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/BUNDLE" - -LIBRARY_OF_SPICE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/SPICE" - -SYMBOL_DIR="${LIBRARY_OF_MODELS_TOP_LEVEL}/SPICE/SYMBOL" - -# the following keeps the circuit symbols in the local directory -#SYMBOL_DIR="./" -# the following puts circuit symbols in the gschem directory -#SYMBOL_DIR="/usr/share/gEDA/sym/local" - -EXECUTABLE_DIR="${PROJECT_DIRECTORY}/bin" - -NGSPICE_SUFFIX="_Ngspice.cir" - -# NOTE: you may need to change ownership of SYMBOL_DIR with something like the following command: -# sudo chown chris:chris /usr/share/gEDA/sym/local - -TEST_CASE_LIST=" -TWISTED_PAIR_CABLE_MODELS -SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34 -SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14 -SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10 -SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33 -SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13 -SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09 -SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32 -SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12 -SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08 -SHIELDED_TWISTED_PAIR_CABLE_MODELS -SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24 -SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12 -SPACEWIRE_CABLE_MODELS -SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1 -SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS -SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2 -SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS -SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS -SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm -SPACEWIRE_CONNECTOR -SPICE_MODEL_SPACEWIRE_CONNECTOR -" - -# Loop over the specified test cases - -for TEST_CASE in $TEST_CASE_LIST -do - -# Check that the test case directory exists - - if [ ! -d "$TEST_CASE" ]; then - - echo "${TEST_CASE} *** FAILED ***: does not exist" >> status - continue - - fi - - echo "Running test case: ${TEST_CASE}" - - cd $TEST_CASE - - cp *.cable_spec ${LIBRARY_OF_CABLE_MODELS} - - cp *.bundle_spec ${LIBRARY_OF_BUNDLE_MODELS} - - cp *.spice_model_spec ${LIBRARY_OF_SPICE_MODELS} - - cd .. - -done diff --git a/SPACECRAFT_CABLE_MOD/generate_spice_cable_bundle_model b/SPACECRAFT_CABLE_MOD/generate_spice_cable_bundle_model deleted file mode 100644 index e4e9553..0000000 --- a/SPACECRAFT_CABLE_MOD/generate_spice_cable_bundle_model +++ /dev/null @@ -1,684 +0,0 @@ -#!/bin/bash -# -# This is a script to generate a spice cable model -# then run a validation test problem to -# check that it is working OK -# -# Copyright (C) 2015 Chris Smartt -# -# This program is free software: you can redistribute it and/or modify -# it under the terms of the GNU General Public License as published by -# the Free Software Foundation, either version 3 of the License, or -# (at your option) any later version. See license.txt for more details. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License -# along with this program. If not, see . - -source gnuplot_functions - -# get the path to the TEST_CASE directory- note a special method is used in cygwin... -if [ "$OSTYPE" == "cygwin" ]; then - TEST_CASE_DIRECTORY=$( cygpath -m $(pwd) ) -else - TEST_CASE_DIRECTORY=$( pwd ) -fi - -PROJECT_DIRECTORY=$( dirname ${TEST_CASE_DIRECTORY} ) - -LIBRARY_OF_MODELS_TOP_LEVEL="${TEST_CASE_DIRECTORY}/MOD_SPACE_CABLES" - -LIBRARY_OF_CABLE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/CABLE" - -LIBRARY_OF_BUNDLE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/BUNDLE" - -LIBRARY_OF_SPICE_MODELS="${LIBRARY_OF_MODELS_TOP_LEVEL}/SPICE" - -SYMBOL_DIR="${LIBRARY_OF_MODELS_TOP_LEVEL}/SPICE/SYMBOL" - -# the following keeps the circuit symbols in the local directory -#SYMBOL_DIR="./" -# the following puts circuit symbols in the gschem directory -#SYMBOL_DIR="/usr/share/gEDA/sym/local" - -EXECUTABLE_DIR="${PROJECT_DIRECTORY}/bin" - -NGSPICE_SUFFIX="_Ngspice.cir" - - -# NOTE: you may need to change ownership of SYMBOL_DIR with something like the following command: -# sudo chown chris:chris /usr/share/gEDA/sym/local - - -FULL_TEST_CASE_LIST=" -TWISTED_PAIR_CABLE_MODELS -SPICE_MODEL_TP_AWG_20_ESCC_3901002_V34 -SPICE_MODEL_TP_AWG_20_ESCC_3901019_V14 -SPICE_MODEL_TP_AWG_20_ESCC_3901025_V10 -SPICE_MODEL_TP_AWG_22_ESCC_3901002_V33 -SPICE_MODEL_TP_AWG_22_ESCC_3901019_V13 -SPICE_MODEL_TP_AWG_22_ESCC_3901025_V09 -SPICE_MODEL_TP_AWG_24_ESCC_3901002_V32 -SPICE_MODEL_TP_AWG_24_ESCC_3901019_V12 -SPICE_MODEL_TP_AWG_24_ESCC_3901025_V08 -SHIELDED_TWISTED_PAIR_CABLE_MODELS -SPICE_MODEL_STP_RS422_AWG_26_ESCC_3902002_V24 -SPICE_MODEL_STP_AWG_26_ESCC_3901025_V12 -SPACEWIRE_CABLE_MODELS -SPICE_MODEL_SPACEWIRE_AWG_28_ESCC_3902003_V1 -SPICE_MODEL_SPACEWIRE_AWG28_V1_SHIELDING_EFFECTIVENESS -SPICE_MODEL_SPACEWIRE_AWG_26_ESCC_3902003_V2 -SPICE_MODEL_SPACEWIRE_AWG26_V2_SHIELDING_EFFECTIVENESS -SPICE_MODEL_LOW_MASS_SPACEWIRE_AWG_28_ESCC_3902004_V1 -SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS -SPICE_MODEL_LOW_MASS_SPACEWIRE_SHIELDING_EFFECTIVENESS_10x10cm -SPACEWIRE_CONNECTOR -SPICE_MODEL_SPACEWIRE_CONNECTOR -" - -ERROR_STRING="\ -Run using the following command: - -generate_spice_cable_bundle_model action - -action is the process to perform: - -action=run NAME : Generate cable models, bundle model and - Spice bundle model and validation spice model - as required for the test case NAME. - Run ngspice on the validation model and compare - the spice result against the analytic solution - -action=plot NAME : Plot the results of the spice validation model and - analytic solution to x11 terminal - -action=plot_wxt NAME : Plot the results of the spice validation model and - analytic solution to wxt terminal - -action=plot_jpg NAME : Plot the results of the spice validation model and - analytic solution to .jpg file - -action=plot_ref NAME : Plot the spice validation model results against - reference results to x11 terminal - -action=plot_ref_wxt NAME : Plot the spice validation model results against - reference results to wxt terminal - -action=plot_ref_jpg NAME : Plot the spice validation model results against - reference results to jpg file - -action=plot_bundle NAME : Plot the bundle cross section to x11 terminal - -action=plot_bundle_wxt NAME : Plot the bundle cross section to wxt terminal - -action=plot_bundle_jpg NAME : Plot the bundle cross section to jpg file - -action=plot_bundle_png NAME : Plot the bundle cross section to png file - -action=plot_bundle_svg NAME : Plot the bundle cross section to svg file - -action=reference NAME : Update the reference results and the difference - between the spice model and validation model - with the current set of results - -action=check_error NAME : Quick check that the difference between the - spice model and validation model is the same as - for the reference data set - -action=clean NAME : Remove all files except those required to set up - the problem and the reference results. - -action=clean_all NAME : Remove all files including the reference results. - -action=clean_mod NAME : Remove all files in the specified MOD directories. - -NAME can be one of the existing test cases or left blank to run all the test cases - in the FULL_TEST_CASE_LIST defined in this script - -" - -if [ "$#" = "0" ] ; then - -# there is no action specified so write the error string to the screen and exit - echo "$ERROR_STRING" - -elif [ "$#" = "1" ] ; then - -# no test case is specified so use the full test case list - TEST_CASE_LIST=$FULL_TEST_CASE_LIST - -else - -# the second argument gives the test case to be run - TEST_CASE_LIST=$2 - -fi - -ACTION=$1 - -if [ "$ACTION" = "clean_mod" ]; then - - pushd . - cd $LIBRARY_OF_CABLE_MODELS - rm -f *.cable - popd - - pushd . - cd $LIBRARY_OF_BUNDLE_MODELS - rm -f *.bundle - popd - - pushd . - cd $LIBRARY_OF_SPICE_MODELS - rm -f *.lib - popd - - pushd . - cd $SYMBOL_DIR - rm -f *.asy *.sym - popd - - exit - -fi - -# set up a new status file with the run command and action as a header -echo "generate_spice_cable_bundle_model $ACTION - " > status -ERROR=" " - -# Loop over the specified test cases - -for TEST_CASE in $TEST_CASE_LIST -do - -# Check that the test case directory exists - - if [ ! -d "$TEST_CASE" ]; then - - echo "${TEST_CASE} *** FAILED ***: does not exist" >> status - continue - - fi - - echo "Running test case: ${TEST_CASE}" - - if [ "$ACTION" = "run" ] ; then - - ERROR=' ' - -# Run the test case(s) specified... - - cd $TEST_CASE - - if [ ! -d RUN_DIRECTORY ]; then - # if the RUN_DIRECTORY doesn't exist then make it - mkdir RUN_DIRECTORY - else -# if the RUN_DIRECTORY exists then empty the directory to run the test in - rm -f RUN_DIRECTORY/* - fi - -# create a sed command which will substitute the local MOD directory for the test cases - echo "{ - s/LIBRARY_OF_CABLE_MODELS/${LIBRARY_OF_CABLE_MODELS//\//\\/}/g - s/LIBRARY_OF_BUNDLE_MODELS/${LIBRARY_OF_BUNDLE_MODELS//\//\\/}/g - s/LIBRARY_OF_SPICE_MODELS/${LIBRARY_OF_SPICE_MODELS//\//\\/}/g - s/SYMBOL_DIR/${SYMBOL_DIR//\//\\/}/g - }" > sed_command - -# Check that the appropriate files required to specify the inputs to the processes -# are present for a viable run and copy the files into the RUN_DIRECTORY - - CABLE_FILE_LIST=$(ls *.cable_spec ) - for CABLE_FILE in $CABLE_FILE_LIST - do -# run sed to copy to a new file with the library paths set appropriately - sed -f sed_command $CABLE_FILE > RUN_DIRECTORY/$CABLE_FILE - - done - - NUMBER_OF_BUNDLE_SPEC_FILES=$(ls *.bundle_spec 2> /dev/null | wc -l) - echo "NUMBER_OF_BUNDLE_SPEC_FILES $NUMBER_OF_BUNDLE_SPEC_FILES" - - if [ "$NUMBER_OF_BUNDLE_SPEC_FILES" -gt "1" ]; then - - cd .. - echo "${TEST_CASE} *** FAILED ***: no more than one .bundle_spec file is expected" >> status - continue - - elif [ "$NUMBER_OF_BUNDLE_SPEC_FILES" == "1" ]; then - - FILENAME=$(ls *.bundle_spec) - sed -f sed_command $FILENAME > RUN_DIRECTORY/$FILENAME - - fi - - NUMBER_OF_SPICE_MODEL_SPEC_FILES=$(ls *.spice_model_spec 2> /dev/null | wc -l) - echo "NUMBER_OF_SPICE_MODEL_SPEC_FILES $NUMBER_OF_SPICE_MODEL_SPEC_FILES" - - if [ "$NUMBER_OF_SPICE_MODEL_SPEC_FILES" -gt "1" ]; then - cd .. - echo "${TEST_CASE} *** FAILED ***: no more than one .spice_model_spec file is expected" >> status - continue - - elif [ "$NUMBER_OF_SPICE_MODEL_SPEC_FILES" == "1" ]; then - - FILENAME=$(ls *.spice_model_spec) - -# copy the spice_model_spec file and set the correct SYMBOL_DIR - sed -f sed_command ${FILENAME} > RUN_DIRECTORY/${FILENAME} - - fi - -# Go into the run directory to run the test case - - cd RUN_DIRECTORY - -# STAGE 1. GENERATE THE CABLE MODEL(S) - -# STAGE 1.1: look for any files with the extension .cable_spec - - echo " " - - CABLE_FILE_LIST=$(ls *.cable_spec 2> /dev/null) - -# STAGE 1.2:loop through these files runninng cable_model_builder for each of them - CABLE_MODEL_BUILDER_STATUS="OK" - for CABLE_FILE in $CABLE_FILE_LIST - do - - CABLE_NAME=$(basename $CABLE_FILE .cable_spec) - ${EXECUTABLE_DIR}/cable_model_builder ${CABLE_NAME} - -# Check that the process finished correctly - read CHECK < run_status - if [ "$CHECK" != "cable_model_builder:Finished_Correctly" ]; then -# We need to organise the logic here such that the test case fails and -# the system goes on to the next test case, not the next CABLE_FILE... - echo "${TEST_CASE} *** FAILED ***: cable_model_builder $CABLE_FILE" >> ../../status - CABLE_MODEL_BUILDER_STATUS="failed" - continue - fi - - done - -# exit the test case if the cable model builder failed - if [ "$CABLE_MODEL_BUILDER_STATUS" = "failed" ]; then - cd ../.. - continue - fi - -# STAGE 2. GENERATE THE BUNDLE MODEL - - echo " " -# STAGE 2.1: count files with the extension .bundle_spec and return with an error if the result is not 0 or 1 - - if [ "$NUMBER_OF_BUNDLE_SPEC_FILES" == "1" ]; then - - FILENAME=$(ls *.bundle_spec) - - CABLE_BUNDLE_NAME=$(basename $FILENAME .bundle_spec) - ${EXECUTABLE_DIR}/cable_bundle_model_builder ${CABLE_BUNDLE_NAME} - -# Check that the process finished correctly - read CHECK < run_status - if [ "$CHECK" != "cable_bundle_model_builder:Finished_Correctly" ]; then - cd ../.. - echo "${TEST_CASE} *** FAILED ***: cable_bundle_model_builder" >> status - continue - fi - - fi - -# STAGE 3.GENERATE THE SPICE CABLE MODEL - echo " " - -# STAGE 3.1: Count files with the extension .spice_model_spec and return with an error if the result is not 1 - - if [ "$NUMBER_OF_SPICE_MODEL_SPEC_FILES" == "1" ]; then - -# STAGE 3.2:run the spice cable bundle model builder - - FILENAME=$(ls *.spice_model_spec) - - SPICE_CABLE_BUNDLE_NAME=$(basename $FILENAME .spice_model_spec) - ${EXECUTABLE_DIR}/spice_cable_bundle_model_builder ${SPICE_CABLE_BUNDLE_NAME} - -# Check that the process finished correctly - read CHECK < run_status - if [ "$CHECK" != "spice_cable_bundle_model_builder:Finished_Correctly" ]; then - cd ../.. - echo "${TEST_CASE} *** FAILED ***: spice_cable_bundle_model_builder" >> status - continue - fi - -# STAGE 4.RUN NGSPICE - -# STAGE 4.1: COUNT FILES WITH THE EXTENSION .CIR AND RETURN WITH AN ERROR IF THE RESULT IS NOT 1 - if [ $(ls *${NGSPICE_SUFFIX} | wc -l) != "1" ]; then - cd ../.. - echo "${TEST_CASE} ERROR: a single .cir file is expected" - continue - fi - - SPICE_INPUT_FILE=$(ls *${NGSPICE_SUFFIX}) - SPICE_PROBLEM_NAME=$( basename $SPICE_INPUT_FILE .cir ) - SPICE_OUTPUT_NAME="spice_solution.dat" - - echo " " - echo "ngspice:Started" - - ngspice -b $SPICE_INPUT_FILE -o $SPICE_OUTPUT_NAME - -# check that the process finished correctly - - NGPSICE_STATUS=$? - if [[ $NGPSICE_STATUS != 0 ]]; then - cd ../.. - echo "${TEST_CASE} *** FAILED ***: ngspice, error code:$NGPSICE_STATUS" >> status - continue - else - echo "${TEST_CASE} ngspice:Finished_correctly" - fi - -# Stage 5: COMPARE THE RUN_DIRECTORY OF THE SPICE MODEL AGAINST THE ANALYTIC MODEL USING THE COMPARE_RUN_DIRECTORY PROCESS - -# create an input file for the result comparison process - echo "analytic_solution.dat -1 -2 -$SPICE_OUTPUT_NAME -2 -3 -result_comparison.dat -" > compare_results_in.txt - - echo " " - ${EXECUTABLE_DIR}/compare_results < compare_results_in.txt - read CHECK < run_status - if [ "$CHECK" != "compare_results:Finished_Correctly" ]; then - cd ../.. - echo "${TEST_CASE} *** FAILED ***: compare_results" >> status - continue - fi - -# add the error between spice and analytic solutions to the status line - read ERROR < result_comparison.dat - -# Create a file 'finished_correctly' to indicate that the run has finished_correctly - touch finished_correctly - -# .spice_model_spec file exists - fi - - cd ../.. - -# finished "$ACTION" = "run" - - elif [ "$ACTION" = "plot_bundle" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=x11 - write_gnuplot_plot_bundle - cd ../.. - - elif [ "$ACTION" = "plot_bundle_jpg" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=jpeg - OUTPUT_FILE=${TEST_CASE}_bundle_cross_section.jpg - write_gnuplot_plot_bundle - cd ../.. - - elif [ "$ACTION" = "plot_bundle_wxt" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=wxt - write_gnuplot_plot_bundle - cd ../.. - - elif [ "$ACTION" = "plot_bundle_png" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=png - OUTPUT_FILE=${TEST_CASE}_bundle_cross_section.png - write_gnuplot_plot_bundle - cd ../.. - - elif [ "$ACTION" = "plot_bundle_svg" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=svg - OUTPUT_FILE=${TEST_CASE}_bundle_cross_section.svg - write_gnuplot_plot_bundle - cd ../.. - - elif [ "$ACTION" = "clean" ]; then - - cd $TEST_CASE - -# Empty the directory to run the test in - - rm -f RUN_DIRECTORY/* - rm -f sed_command - - cd .. - - elif [ "$ACTION" = "clean_all" ]; then - - cd $TEST_CASE - -# Empty the directory to run the test in - - rm -f RUN_DIRECTORY/* - rm -f sed_command - - cd .. - - - else - -# All other actions assume that the test case has been run so check that this is the case - - if [ ! -d ${TEST_CASE}/RUN_DIRECTORY ]; then - # if the RUN_DIRECTORY doesn't exist then the problem can't have been run - echo "${TEST_CASE} *** FAILED ***: The RUN_DIRECTORY is missing" >> status - continue - fi - - if [ ! -f ${TEST_CASE}/RUN_DIRECTORY/finished_correctly ]; then - # if the RUN_DIRECTORY/finished_correctly file doesn't exist then - # the run cannot have proceeded as far as producing spice simulation results - echo "${TEST_CASE}: *** No simulation results are available for action: $ACTION " >> status - continue - fi -# no other checks SHOULD be necessary now... - -# read the analytic solution file header to work out the type of simulation which has been run - read HEADER < ${TEST_CASE}/RUN_DIRECTORY/analytic_solution.dat - - if [ "$HEADER" = "#LOG_FREQUENCY_DATA" ]; then - -# Set the gnuplot parameters for a Log frequency plot - XLABEL=Frequency\(Hz\) - YLABEL=V\(f\) - XSCALE=logscale - - elif [ "$HEADER" = "#LIN_FREQUENCY_DATA" ]; then - -# Set the gnuplot parameters for a Linear frequency plot - XLABEL=Frequency\(Hz\) - YLABEL=V\(f\) - XSCALE=nologscale - - elif [ "$HEADER" = "#TIME_DOMAIN_DATA" ]; then - -# Set the gnuplot parameters for a Time domain plot - XLABEL=Time\(s\) - YLABEL=V\(t\) - XSCALE=nologscale - - else - - echo "$TEST_CASE Error reading analytic solution file header :$HEADER" >> status - continue - -# HEADER type - fi - - TITLE=$TEST_CASE - OUTPUT_FILE="" - - if [ "$ACTION" = "plot" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=x11 - write_gnuplot_result - cd ../.. - - elif [ "$ACTION" = "plot_wxt" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=wxt - write_gnuplot_result - cd ../.. - - elif [ "$ACTION" = "plot_jpg" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=jpeg - OUTPUT_FILE=${TEST_CASE}_result.jpg - write_gnuplot_result - cd ../.. - - elif [ "$ACTION" = "plot_ref" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=x11 - write_gnuplot_reference_result - cd ../.. - - elif [ "$ACTION" = "plot_ref_jpg" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=jpeg - OUTPUT_FILE=${TEST_CASE}_reference_result.jpg - write_gnuplot_reference_result - cd ../.. - - elif [ "$ACTION" = "plot_ref_wxt" ]; then - - cd ${TEST_CASE}/RUN_DIRECTORY - TERMINAL=wxt - write_gnuplot_reference_result - cd ../.. - - elif [ "$ACTION" = "reference" ]; then - - cd $TEST_CASE - - cp RUN_DIRECTORY/result_comparison.dat result_comparison.dat_reference - cp RUN_DIRECTORY/spice_solution.dat spice_solution.dat_reference - cp RUN_DIRECTORY/analytic_solution.dat analytic_solution.dat_reference - - cd .. - - elif [ "$ACTION" = "check_error" ]; then - - cd $TEST_CASE - - cat RUN_DIRECTORY/result_comparison.dat - -# Check whether there is an existing reference comparison file and if so check the difference - - if [ -f result_comparison.dat_reference ]; then - - cmp result_comparison.dat_reference RUN_DIRECTORY/result_comparison.dat - - RETURN_CODE=$? - - if [[ $RETURN_CODE == 0 ]] - then - cd .. - echo "Checking the current results against reference results: OK - " - echo "${TEST_CASE} FINISHED_CORRECTLY: error = reference error" >> status - continue - else - OLD_VALUE=$(cat result_comparison.dat_reference) - NEW_VALUE=$(cat RUN_DIRECTORY/result_comparison.dat) - cd .. - echo "Checking the current results against reference results: FAILED - " - echo "${TEST_CASE} *** FAILED ***: error != reference error" >> status - echo "Old value: $OLD_VALUE" >> status - echo "New value: $NEW_VALUE" >> status - - continue - fi - - else - - cd .. - echo "${TEST_CASE} *** FAILED ***: The result_comparison.dat_reference file is missing" >> status - continue - - fi - - cd .. - - else - - echo " ERROR: unknown action, $ACTION" - exit 1 - -# end of ACTION options for ACTION != (run clean or clean_all) - fi - -# end of ACTION options - fi - - echo " " - echo "Test_case $TEST_CASE Finished correctly" - echo " " - echo "$TEST_CASE: Finished correctly $ERROR" >> status - -done - -if [ "$ACTION" = "clean_all" ] ; then - -# clean the library of cable models - rm -rf $LIBRARY_OF_CABLE_MODELS/* - - echo "Directory for individual cable models" > $LIBRARY_OF_CABLE_MODELS/readme.md - - rm -rf $LIBRARY_OF_BUNDLE_MODELS/* - - echo "Directory for cable bundle models and directories with the associated Spice cable bundle models" > $LIBRARY_OF_BUNDLE_MODELS/readme.md - - rm -f status - -fi - -if [[ "$ACTION" != "clean" && "$ACTION" != "clean_all" ]] ; then - - echo "__________________________________" - echo " " - echo "Completed all specified test cases" - echo "__________________________________" - echo " " - echo "STATUS:" - echo " " - - cat status - - echo " " - -fi - - diff --git a/SPACECRAFT_CABLE_MOD/gnuplot_functions b/SPACECRAFT_CABLE_MOD/gnuplot_functions deleted file mode 100644 index 3e96681..0000000 --- a/SPACECRAFT_CABLE_MOD/gnuplot_functions +++ /dev/null @@ -1,95 +0,0 @@ -write_gnuplot_result() { - -# write a gnuplot input file to plot a spice result vs analytic reference result -# Then run gnuplot with this file as input - -if [ $OUTPUT_FILE ] -then -OUTPUT_FILE_LINE="set output '$OUTPUT_FILE'" -PAUSE_LINE="" -else -OUTPUT_FILE_LINE="" -PAUSE_LINE="pause -1" -fi - -echo "set term $TERMINAL noenhanced -$OUTPUT_FILE_LINE -set title '$TITLE' -set xlabel '$XLABEL' -set ylabel '$YLABEL' -set $XSCALE x -plot 'analytic_solution.dat' u 1:2 title 'Analytic solution' w p lc 3,\ - 'spice_solution.dat' u 2:3 title 'Spice solution' w l lc 1 -$PAUSE_LINE -" > plot.plt - -gnuplot plot.plt - -} - -write_gnuplot_reference_result() { - -# write a gnuplot input file to plot a spice result vs reference spice result -# and the analytic result vs reference analytic result -# Then run gnuplot with this file as input - -if [ $OUTPUT_FILE ] -then -OUTPUT_FILE_LINE1="set output 'Analytic_$OUTPUT_FILE'" -OUTPUT_FILE_LINE2="set output 'Spice_$OUTPUT_FILE'" -PAUSE_LINE="" -else -OUTPUT_FILE_LINE1="" -OUTPUT_FILE_LINE2="" -PAUSE_LINE="pause -1" -fi - -echo "set term $TERMINAL noenhanced -set title '$TITLE' -set xlabel '$XLABEL' -set ylabel '$YLABEL' -set $XSCALE x -$OUTPUT_FILE_LINE1 -plot '../analytic_solution.dat_reference' u 1:2 title 'Reference Analytic solution' w p lc 3,\ - 'analytic_solution.dat' u 1:2 title 'Analytic solution' w l lc 1 -$PAUSE_LINE -$OUTPUT_FILE_LINE2 -plot '../spice_solution.dat_reference' u 2:3 title 'Reference Spice solution' w p lc 3,\ - 'spice_solution.dat' u 2:3 title 'Spice solution' w l lc 1 -$PAUSE_LINE -" > plot.plt - -gnuplot plot.plt - -} - -write_gnuplot_plot_bundle() { - -# write a gnuplot input file to plot the bundle cross section -# Then run gnuplot with this file as input - -if [ $OUTPUT_FILE ] -then -OUTPUT_FILE_LINE="set output '$OUTPUT_FILE'" -PAUSE_LINE="" -else -OUTPUT_FILE_LINE="" -PAUSE_LINE="pause -1" -fi - -echo "set term $TERMINAL noenhanced -$OUTPUT_FILE_LINE -set size square -set title '$TITLE' -set xlabel 'x(m)' -set ylabel 'y(m)' -plot 'conductors.dat' u 1:2 title 'Conductors' w l lc 3,\ - 'dielectrics.dat' u 1:2 title 'Dielectrics' w l lc 2,\ - 'frame.dat' u 1:2 notitle w l lc 1 -$PAUSE_LINE -" > plot.plt - -gnuplot plot.plt - -} - -- libgit2 0.21.2