zt_test_ac_Pspice.lib
25.8 KB
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* Pspice multi-conductor transmission line validation model
* Created by Spice cable model builder v1.9.3
*
* Cable bundle name: zt_test
*
*
* Transmission line subcircuit
*
.subckt zt_test_ac
+ 2 3 4 5 6
+ 7 8 9 10 11
*
* D.C. RESISTANCE END 1
*
Rdc_c1_e1 2 12 3.850000E-09
Rdc_c2_e1 3 13 3.850000E-09
Rdc_c3_e1 4 14 6.232800E-03
Rdc_c4_e1 5 15 7.076616E-04
Rdc_c5_e1 6 1 3.850000E-09
*
* D.C. RESISTANCE END 2
*
Rdc_c1_e2 7 16 3.850000E-09
Rdc_c2_e2 8 17 3.850000E-09
Rdc_c3_e2 9 18 6.232800E-03
Rdc_c4_e2 10 19 7.076616E-04
Rdc_c5_e2 11 1 3.850000E-09
*
* DOMAIN TRANSFORMATION END 1
*
*
* Domain decomposition Voltage sources used for current sensing
*
Vmeas_domain_decomp_c1_e1 12 24
Vmeas_domain_decomp_c2_e1 13 28
Vmeas_domain_decomp_c3_e1 14 32
Vmeas_domain_decomp_c4_e1 15 36
*
* Domain decomposition Voltage controlled voltage sources (domain to conductor)
*
E_domain_decomp_c1_dc1_e1 24 25 20 1 0.000000E+00
E_domain_decomp_c1_dc2_e1 25 26 21 1 0.000000E+00
E_domain_decomp_c1_dc3_e1 26 27 22 1 1.000000E+00
E_domain_decomp_c1_dc4_e1 27 1 23 1 -0.000000E+00
E_domain_decomp_c2_dc1_e1 28 29 20 1 1.000000E+00
E_domain_decomp_c2_dc2_e1 29 30 21 1 1.000000E+00
E_domain_decomp_c2_dc3_e1 30 31 22 1 0.000000E+00
E_domain_decomp_c2_dc4_e1 31 1 23 1 1.000000E+00
E_domain_decomp_c3_dc1_e1 32 33 20 1 0.000000E+00
E_domain_decomp_c3_dc2_e1 33 34 21 1 1.000000E+00
E_domain_decomp_c3_dc3_e1 34 35 22 1 0.000000E+00
E_domain_decomp_c3_dc4_e1 35 1 23 1 1.000000E+00
E_domain_decomp_c4_dc1_e1 36 37 20 1 0.000000E+00
E_domain_decomp_c4_dc2_e1 37 38 21 1 -0.000000E+00
E_domain_decomp_c4_dc3_e1 38 39 22 1 0.000000E+00
E_domain_decomp_c4_dc4_e1 39 1 23 1 1.000000E+00
*
* Domain decomposition Current controlled current sources (conductor to domain)
*
F_domain_decomp_c1_dc1_e1 1 20 Vmeas_domain_decomp_c1_e1 0.000000E+00
F_domain_decomp_c2_dc1_e1 1 20 Vmeas_domain_decomp_c2_e1 1.000000E+00
F_domain_decomp_c3_dc1_e1 1 20 Vmeas_domain_decomp_c3_e1 0.000000E+00
F_domain_decomp_c4_dc1_e1 1 20 Vmeas_domain_decomp_c4_e1 0.000000E+00
F_domain_decomp_c1_dc2_e1 1 21 Vmeas_domain_decomp_c1_e1 0.000000E+00
F_domain_decomp_c2_dc2_e1 1 21 Vmeas_domain_decomp_c2_e1 1.000000E+00
F_domain_decomp_c3_dc2_e1 1 21 Vmeas_domain_decomp_c3_e1 1.000000E+00
F_domain_decomp_c4_dc2_e1 1 21 Vmeas_domain_decomp_c4_e1 0.000000E+00
F_domain_decomp_c1_dc3_e1 1 22 Vmeas_domain_decomp_c1_e1 1.000000E+00
F_domain_decomp_c2_dc3_e1 1 22 Vmeas_domain_decomp_c2_e1 0.000000E+00
F_domain_decomp_c3_dc3_e1 1 22 Vmeas_domain_decomp_c3_e1 0.000000E+00
F_domain_decomp_c4_dc3_e1 1 22 Vmeas_domain_decomp_c4_e1 0.000000E+00
F_domain_decomp_c1_dc4_e1 1 23 Vmeas_domain_decomp_c1_e1 0.000000E+00
F_domain_decomp_c2_dc4_e1 1 23 Vmeas_domain_decomp_c2_e1 1.000000E+00
F_domain_decomp_c3_dc4_e1 1 23 Vmeas_domain_decomp_c3_e1 1.000000E+00
F_domain_decomp_c4_dc4_e1 1 23 Vmeas_domain_decomp_c4_e1 1.000000E+00
*
* DOMAIN TRANSFORMATION END 2
*
*
* Domain decomposition Voltage sources used for current sensing
*
Vmeas_domain_decomp_c1_e2 16 44
Vmeas_domain_decomp_c2_e2 17 48
Vmeas_domain_decomp_c3_e2 18 52
Vmeas_domain_decomp_c4_e2 19 56
*
* Domain decomposition Voltage controlled voltage sources (domain to conductor)
*
E_domain_decomp_c1_dc1_e2 44 45 40 1 0.000000E+00
E_domain_decomp_c1_dc2_e2 45 46 41 1 0.000000E+00
E_domain_decomp_c1_dc3_e2 46 47 42 1 1.000000E+00
E_domain_decomp_c1_dc4_e2 47 1 43 1 -0.000000E+00
E_domain_decomp_c2_dc1_e2 48 49 40 1 1.000000E+00
E_domain_decomp_c2_dc2_e2 49 50 41 1 1.000000E+00
E_domain_decomp_c2_dc3_e2 50 51 42 1 0.000000E+00
E_domain_decomp_c2_dc4_e2 51 1 43 1 1.000000E+00
E_domain_decomp_c3_dc1_e2 52 53 40 1 0.000000E+00
E_domain_decomp_c3_dc2_e2 53 54 41 1 1.000000E+00
E_domain_decomp_c3_dc3_e2 54 55 42 1 0.000000E+00
E_domain_decomp_c3_dc4_e2 55 1 43 1 1.000000E+00
E_domain_decomp_c4_dc1_e2 56 57 40 1 0.000000E+00
E_domain_decomp_c4_dc2_e2 57 58 41 1 -0.000000E+00
E_domain_decomp_c4_dc3_e2 58 59 42 1 0.000000E+00
E_domain_decomp_c4_dc4_e2 59 1 43 1 1.000000E+00
*
* Domain decomposition Current controlled current sources (conductor to domain)
*
F_domain_decomp_c1_dc1_e2 1 40 Vmeas_domain_decomp_c1_e2 0.000000E+00
F_domain_decomp_c2_dc1_e2 1 40 Vmeas_domain_decomp_c2_e2 1.000000E+00
F_domain_decomp_c3_dc1_e2 1 40 Vmeas_domain_decomp_c3_e2 0.000000E+00
F_domain_decomp_c4_dc1_e2 1 40 Vmeas_domain_decomp_c4_e2 0.000000E+00
F_domain_decomp_c1_dc2_e2 1 41 Vmeas_domain_decomp_c1_e2 0.000000E+00
F_domain_decomp_c2_dc2_e2 1 41 Vmeas_domain_decomp_c2_e2 1.000000E+00
F_domain_decomp_c3_dc2_e2 1 41 Vmeas_domain_decomp_c3_e2 1.000000E+00
F_domain_decomp_c4_dc2_e2 1 41 Vmeas_domain_decomp_c4_e2 0.000000E+00
F_domain_decomp_c1_dc3_e2 1 42 Vmeas_domain_decomp_c1_e2 1.000000E+00
F_domain_decomp_c2_dc3_e2 1 42 Vmeas_domain_decomp_c2_e2 0.000000E+00
F_domain_decomp_c3_dc3_e2 1 42 Vmeas_domain_decomp_c3_e2 0.000000E+00
F_domain_decomp_c4_dc3_e2 1 42 Vmeas_domain_decomp_c4_e2 0.000000E+00
F_domain_decomp_c1_dc4_e2 1 43 Vmeas_domain_decomp_c1_e2 0.000000E+00
F_domain_decomp_c2_dc4_e2 1 43 Vmeas_domain_decomp_c2_e2 1.000000E+00
F_domain_decomp_c3_dc4_e2 1 43 Vmeas_domain_decomp_c3_e2 1.000000E+00
F_domain_decomp_c4_dc4_e2 1 43 Vmeas_domain_decomp_c4_e2 1.000000E+00
*
* DOMAIN 1
*
*
* Modal Decomposition
*
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d1_c1_e1 20 61
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d1_c1_m1_e1 61 1 60 1 1.000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d1_c1_m1_e1 1 60 Vmeas_mode_decomp_d1_c1_e1 1.000000E+00
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d1_c1_e2 40 63
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d1_c1_m1_e2 63 1 62 1 1.000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d1_c1_m1_e2 1 62 Vmeas_mode_decomp_d1_c1_e2 1.000000E+00
*
* Modal impedance: end1
*
RZCm_d1_m1_e1 60 64 5.215035E+01
*
* Modal impedance: end2
*
RZCm_d1_m1_e2 62 65 5.215035E+01
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d1_m1_e1 64 1 66 1 1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d1_m1_e2 65 1 67 1 1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d1_m1_e1 67 1 68 1 Z0= 5.215035E+01 TD= 3.852665E-09
*
* Delay line for negative z propagation
*
T_mz_d1_m1_e2 66 1 69 1 Z0= 5.215035E+01 TD= 3.852665E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d1_m1_e1 67 1 5.215035E+01
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d1_m1_e2 66 1 5.215035E+01
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d1_m1_e1 68 70 60 1 2.000000E+00
E_m_pz_d1_m1_e2 70 1 64 1 -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d1_m1_e1 69 71 62 1 2.000000E+00
E_m_mz_d1_m1_e2 71 1 65 1 -1.000000E+00
*
* DOMAIN 2
*
*
* Modal Decomposition
*
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d2_c1_e1 21 73
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d2_c1_m1_e1 73 1 72 1 1.000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d2_c1_m1_e1 1 72 Vmeas_mode_decomp_d2_c1_e1 1.000000E+00
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d2_c1_e2 41 75
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d2_c1_m1_e2 75 1 74 1 1.000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d2_c1_m1_e2 1 74 Vmeas_mode_decomp_d2_c1_e2 1.000000E+00
*
* Modal impedance: end1
*
RZCm_d2_m1_e1 72 78 2.172929E+01
*
* Modal impedance: end2
*
RZCm_d2_m1_e2 74 79 2.172929E+01
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d2_m1_e1 78 76 80 1 1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d2_m1_e2 79 77 81 1 1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d2_m1_e1 81 1 82 1 Z0= 2.172929E+01 TD= 2.568444E-09
*
* Delay line for negative z propagation
*
T_mz_d2_m1_e2 80 1 83 1 Z0= 2.172929E+01 TD= 2.568444E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d2_m1_e1 81 1 2.172929E+01
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d2_m1_e2 80 1 2.172929E+01
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d2_m1_e1 82 84 72 1 2.000000E+00
E_m_pz_d2_m1_e2 84 1 78 1 -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d2_m1_e1 83 85 74 1 2.000000E+00
E_m_mz_d2_m1_e2 85 1 79 1 -1.000000E+00
*
* DOMAIN 3
*
*
* Modal Decomposition
*
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d3_c1_e1 22 88
Vmeas_mode_decomp_d3_c2_e1 23 90
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d3_c1_m1_e1 88 89 86 1 1.372997E+00
E_mode_decomp_d3_c1_m2_e1 89 1 87 1 -8.130688E-01
E_mode_decomp_d3_c2_m1_e1 90 91 86 1 1.909837E-01
E_mode_decomp_d3_c2_m2_e1 91 1 87 1 -1.122726E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d3_c1_m1_e1 1 86 Vmeas_mode_decomp_d3_c1_e1 1.372997E+00
F_mode_decomp_d3_c2_m1_e1 1 86 Vmeas_mode_decomp_d3_c2_e1 1.909837E-01
F_mode_decomp_d3_c1_m2_e1 1 87 Vmeas_mode_decomp_d3_c1_e1 -8.130688E-01
F_mode_decomp_d3_c2_m2_e1 1 87 Vmeas_mode_decomp_d3_c2_e1 -1.122726E+00
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d3_c1_e2 42 94
Vmeas_mode_decomp_d3_c2_e2 43 96
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d3_c1_m1_e2 94 95 92 1 1.372997E+00
E_mode_decomp_d3_c1_m2_e2 95 1 93 1 -8.130688E-01
E_mode_decomp_d3_c2_m1_e2 96 97 92 1 1.909837E-01
E_mode_decomp_d3_c2_m2_e2 97 1 93 1 -1.122726E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d3_c1_m1_e2 1 92 Vmeas_mode_decomp_d3_c1_e2 1.372997E+00
F_mode_decomp_d3_c2_m1_e2 1 92 Vmeas_mode_decomp_d3_c2_e2 1.909837E-01
F_mode_decomp_d3_c1_m2_e2 1 93 Vmeas_mode_decomp_d3_c1_e2 -8.130688E-01
F_mode_decomp_d3_c2_m2_e2 1 93 Vmeas_mode_decomp_d3_c2_e2 -1.122726E+00
*
* Modal impedance: end1
*
RZCm_d3_m1_e1 86 102 5.808746E+01
*
* Modal impedance: end2
*
RZCm_d3_m1_e2 92 103 5.808746E+01
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d3_m1_e1 102 98 104 1 1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d3_m1_e2 103 99 105 1 1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d3_m1_e1 105 1 106 1 Z0= 5.808746E+01 TD= 2.568444E-09
*
* Delay line for negative z propagation
*
T_mz_d3_m1_e2 104 1 107 1 Z0= 5.808746E+01 TD= 2.568444E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d3_m1_e1 105 1 5.808746E+01
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d3_m1_e2 104 1 5.808746E+01
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d3_m1_e1 106 108 86 1 2.000000E+00
E_m_pz_d3_m1_e2 108 1 102 1 -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d3_m1_e1 107 109 92 1 2.000000E+00
E_m_mz_d3_m1_e2 109 1 103 1 -1.000000E+00
*
* Modal impedance: end1
*
RZCm_d3_m2_e1 87 110 1.568212E+02
*
* Modal impedance: end2
*
RZCm_d3_m2_e2 93 111 1.568212E+02
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d3_m2_e1 110 100 112 1 1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d3_m2_e2 111 101 113 1 1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d3_m2_e1 113 1 114 1 Z0= 1.568212E+02 TD= 2.568444E-09
*
* Delay line for negative z propagation
*
T_mz_d3_m2_e2 112 1 115 1 Z0= 1.568212E+02 TD= 2.568444E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d3_m2_e1 113 1 1.568212E+02
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d3_m2_e2 112 1 1.568212E+02
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d3_m2_e1 114 116 87 1 2.000000E+00
E_m_pz_d3_m2_e2 116 1 110 1 -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d3_m2_e1 115 117 93 1 2.000000E+00
E_m_mz_d3_m2_e2 117 1 111 1 -1.000000E+00
*
* START OF TRANSFER IMPEDANCE COUPLING MODELS
*
*
* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_pz_TsPTv_ZT1_sm_1_vm_1 119 1 120 1 Z0= 0.521504E+02 TD= 0.642111E-08
*
* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_mz_TsPTv_ZT1_sm_1_vm_1 121 1 122 1 Z0= 0.521504E+02 TD= 0.642111E-08
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_pz_TsPTv_ZT1_sm_1_vm_1 120 1 0.521504E+02
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_mz_TsPTv_ZT1_sm_1_vm_1 122 1 0.521504E+02
*
* Delay line controlled sources for positive z propagation
*
E1_pz_TsPTv_ZT1_sm_1_vm_1 119 1 68 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation
*
E1_mz_TsPTv_ZT1_sm_1_vm_1 121 1 69 1 0.100000E+01
*
* Delay lines for positive z propagation, T_source(s_mode) delay
*
T_pz_Ts_ZT1_sm_1_vm_1 123 1 124 1 Z0= 0.521504E+02 TD= 0.385267E-08
*
* Delay lines for negative z propagation, T_source(s_mode) delay
*
T_mz_Ts_ZT1_sm_1_vm_1 125 1 126 1 Z0= 0.521504E+02 TD= 0.385267E-08
*
* Modal impedances: for pz propagation, T_source(s_mode)
*
RZC_pz_Ts_ZT1_sm_1_vm_1 124 1 0.521504E+02
*
* Modal impedances: for mz propagation, T_source(s_mode)
*
RZC_mz_Ts_ZT1_sm_1_vm_1 126 1 0.521504E+02
*
* Delay line controlled sources for positive z propagation, Vs+(0,t)
*
E1_pz_Ts_ZT1_sm_1_vm_1 123 1 68 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation Vs-(L,t)
*
E1_mz_Ts_ZT1_sm_1_vm_1 125 1 69 1 0.100000E+01
*
* Delay lines for positive z propagation, T_victim(v_mode)
*
T_pz_Tv_ZT1_sm_1_vm_1 127 1 128 1 Z0= 0.521504E+02 TD= 0.256844E-08
*
* Delay lines for negative z propagation, T_victim(v_mode)
*
T_mz_Tv_ZT1_sm_1_vm_1 129 1 130 1 Z0= 0.521504E+02 TD= 0.256844E-08
*
* Modal impedances for pz propagation: T_victim(v_mode)
*
RZC_pz_Tv_ZT1_sm_1_vm_1 128 1 0.521504E+02
*
* Modal impedances for Mz propagation: T_victim(v_mode)
*
RZC_mz_Tv_ZT1_sm_1_vm_1 130 1 0.521504E+02
*
* Delay line controlled sources for positive z propagation
*
E1_pz_Tv_ZT1_sm_1_vm_1 127 1 68 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation
*
E1_mz_Tv_ZT1_sm_1_vm_1 129 1 69 1 0.100000E+01
*
* Circuit to combine transfer impedance terms
*
E_zt_dsum_l_ZT1_sm_1_vm_1_E1 131 1 69 1 -0.114972E+07
E_zt_dsum_l_ZT1_sm_1_vm_1_E2 132 131 122 1 0.114972E+07
E_zt_dsum_s_ZT1_sm_1_vm_1_E1 133 1 68 1 -0.114972E+07
E_zt_dsum_s_ZT1_sm_1_vm_1_E2 134 133 120 1 0.114972E+07
E_zt_dsum_l_ZT1_sm_1_vm_1_E3 135 132 128 1 0.574862E+07
E_zt_dsum_l_ZT1_sm_1_vm_1_E4 136 135 124 1 -0.574862E+07
E_zt_dsum_s_ZT1_sm_1_vm_1_E3 137 134 126 1 -0.574862E+07
E_zt_dsum_s_ZT1_sm_1_vm_1_E4 138 137 130 1 0.574862E+07
R_zt_dsum_l_ZT1_sm_1_vm_1 136 1 0.100000E+11
R_zt_dsum_s_ZT1_sm_1_vm_1 138 1 0.100000E+11
*
* Transfer impedance sources, end 1
*
E_ZT_s_ZT1_sm_1_vm_1 76 1 138 1 8.490000E-10
*
* Transfer impedance sources, end 2
*
E_ZT_l_ZT1_sm_1_vm_1 77 1 136 1 8.490000E-10
*
* START OF TRANSFER IMPEDANCE COUPLING MODELS
*
*
* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_pz_TsPTv_ZT2_sm_1_vm_1 139 1 140 1 Z0= 0.217293E+02 TD= 0.513689E-08
*
* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_mz_TsPTv_ZT2_sm_1_vm_1 141 1 142 1 Z0= 0.217293E+02 TD= 0.513689E-08
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_pz_TsPTv_ZT2_sm_1_vm_1 140 1 0.217293E+02
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_mz_TsPTv_ZT2_sm_1_vm_1 142 1 0.217293E+02
*
* Delay line controlled sources for positive z propagation
*
E1_pz_TsPTv_ZT2_sm_1_vm_1 139 1 82 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation
*
E1_mz_TsPTv_ZT2_sm_1_vm_1 141 1 83 1 0.100000E+01
*
* Delay lines for positive z propagation, T_source(s_mode) delay
*
T_pz_Ts_ZT2_sm_1_vm_1 143 1 144 1 Z0= 0.217293E+02 TD= 0.256844E-08
*
* Delay lines for negative z propagation, T_source(s_mode) delay
*
T_mz_Ts_ZT2_sm_1_vm_1 145 1 146 1 Z0= 0.217293E+02 TD= 0.256844E-08
*
* Modal impedances: for pz propagation, T_source(s_mode)
*
RZC_pz_Ts_ZT2_sm_1_vm_1 144 1 0.217293E+02
*
* Modal impedances: for mz propagation, T_source(s_mode)
*
RZC_mz_Ts_ZT2_sm_1_vm_1 146 1 0.217293E+02
*
* Delay line controlled sources for positive z propagation, Vs+(0,t)
*
E1_pz_Ts_ZT2_sm_1_vm_1 143 1 82 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation Vs-(L,t)
*
E1_mz_Ts_ZT2_sm_1_vm_1 145 1 83 1 0.100000E+01
*
* Controlled source for derivative of positive z propagating voltage wave, Vs+(0,t-Ts)
*
G_Vp_ddt_ZT2_sm_1_vm_1 147 1 144 1 0.100000E+01
*
* 1H inductor for derivative of positive z propagating voltage wave, Vs+(0,t-Ts)
*
L_Vp_ddt_ZT2_sm_1_vm_1 147 1 0.100000E+01
*
* Controlled sources for derivative of negative z propagating voltage wave Vs-(L,t-Ts)
*
G_Vm_ddt_ZT2_sm_1_vm_1 148 1 146 1 0.100000E+01
*
* 1H inductor for derivative of negative z propagating voltage wave, Vs-(0,t-Ts)
*
L_Vm_ddt_ZT2_sm_1_vm_1 148 1 0.100000E+01
*
* Circuit to combine transfer impedance terms
*
E_zt_dsum_l_ZT2_sm_1_vm_1_E1 149 1 83 1 0.202307E+07
E_zt_dsum_l_ZT2_sm_1_vm_1_E2 150 149 142 1 -0.202307E+07
E_zt_dsum_s_ZT2_sm_1_vm_1_E1 151 1 82 1 0.202307E+07
E_zt_dsum_s_ZT2_sm_1_vm_1_E2 152 151 140 1 -0.202307E+07
E_zt_dsum_l_ZT2_sm_1_vm_1_E3 154 150 147 1 0.103923E-01
E_zt_dsum_s_ZT2_sm_1_vm_1_E3 156 152 148 1 0.103923E-01
R_zt_dsum_l_ZT2_sm_1_vm_1 154 1 0.100000E+11
R_zt_dsum_s_ZT2_sm_1_vm_1 156 1 0.100000E+11
*
* Transfer impedance sources, end 1
*
E_ZT_s_ZT2_sm_1_vm_1 98 1 156 1 9.550000E-10
*
* Transfer impedance sources, end 2
*
E_ZT_l_ZT2_sm_1_vm_1 99 1 154 1 9.550000E-10
*
* Delay lines for positive z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_pz_TsPTv_ZT2_sm_1_vm_2 157 1 158 1 Z0= 0.217293E+02 TD= 0.513689E-08
*
* Delay lines for negative z propagation, T_source(s_mode)+T_victim(v_mode)
*
T_mz_TsPTv_ZT2_sm_1_vm_2 159 1 160 1 Z0= 0.217293E+02 TD= 0.513689E-08
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_pz_TsPTv_ZT2_sm_1_vm_2 158 1 0.217293E+02
*
* Modal impedances: T_source(s_mode)+T_victim(v_mode)
*
RZC_mz_TsPTv_ZT2_sm_1_vm_2 160 1 0.217293E+02
*
* Delay line controlled sources for positive z propagation
*
E1_pz_TsPTv_ZT2_sm_1_vm_2 157 1 82 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation
*
E1_mz_TsPTv_ZT2_sm_1_vm_2 159 1 83 1 0.100000E+01
*
* Delay lines for positive z propagation, T_source(s_mode) delay
*
T_pz_Ts_ZT2_sm_1_vm_2 161 1 162 1 Z0= 0.217293E+02 TD= 0.256844E-08
*
* Delay lines for negative z propagation, T_source(s_mode) delay
*
T_mz_Ts_ZT2_sm_1_vm_2 163 1 164 1 Z0= 0.217293E+02 TD= 0.256844E-08
*
* Modal impedances: for pz propagation, T_source(s_mode)
*
RZC_pz_Ts_ZT2_sm_1_vm_2 162 1 0.217293E+02
*
* Modal impedances: for mz propagation, T_source(s_mode)
*
RZC_mz_Ts_ZT2_sm_1_vm_2 164 1 0.217293E+02
*
* Delay line controlled sources for positive z propagation, Vs+(0,t)
*
E1_pz_Ts_ZT2_sm_1_vm_2 161 1 82 1 0.100000E+01
*
* Delay line controlled sources for negative z propagation Vs-(L,t)
*
E1_mz_Ts_ZT2_sm_1_vm_2 163 1 83 1 0.100000E+01
*
* Controlled source for derivative of positive z propagating voltage wave, Vs+(0,t-Ts)
*
G_Vp_ddt_ZT2_sm_1_vm_2 165 1 162 1 0.100000E+01
*
* 1H inductor for derivative of positive z propagating voltage wave, Vs+(0,t-Ts)
*
L_Vp_ddt_ZT2_sm_1_vm_2 165 1 0.100000E+01
*
* Controlled sources for derivative of negative z propagating voltage wave Vs-(L,t-Ts)
*
G_Vm_ddt_ZT2_sm_1_vm_2 166 1 164 1 0.100000E+01
*
* 1H inductor for derivative of negative z propagating voltage wave, Vs-(0,t-Ts)
*
L_Vm_ddt_ZT2_sm_1_vm_2 166 1 0.100000E+01
*
* Circuit to combine transfer impedance terms
*
E_zt_dsum_l_ZT2_sm_1_vm_2_E1 167 1 83 1 0.341628E+07
E_zt_dsum_l_ZT2_sm_1_vm_2_E2 168 167 160 1 -0.341628E+07
E_zt_dsum_s_ZT2_sm_1_vm_2_E1 169 1 82 1 0.341628E+07
E_zt_dsum_s_ZT2_sm_1_vm_2_E2 170 169 158 1 -0.341628E+07
E_zt_dsum_l_ZT2_sm_1_vm_2_E3 172 168 165 1 0.175491E-01
E_zt_dsum_s_ZT2_sm_1_vm_2_E3 174 170 166 1 0.175491E-01
R_zt_dsum_l_ZT2_sm_1_vm_2 172 1 0.100000E+11
R_zt_dsum_s_ZT2_sm_1_vm_2 174 1 0.100000E+11
*
* Transfer impedance sources, end 1
*
E_ZT_s_ZT2_sm_1_vm_2 100 1 174 1 9.550000E-10
*
* Transfer impedance sources, end 2
*
E_ZT_l_ZT2_sm_1_vm_2 101 1 172 1 9.550000E-10
*
.ends
*