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MOD_EXAMPLE/SPICE/Coax_Gnd_EField_NGspice.lib 9.52 KB
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a4086fdd   Steve Greedy   Add Example MOD 
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* Ngspice multi-conductor transmission line model
* Created by Spice cable model builder v2.3.1
*
* Transmission line subcircuit
*
*
* End 1 nodes:
*
* node:  4 cable number:  1 type:coax name:coaxial_cable_02  conductor number  1
* node:  5 cable number:  1 type:coax name:coaxial_cable_02  conductor number  2
* node:  6 Ground plane
*
* End 2 nodes:
*
* node:  7 cable number:  1 type:coax name:coaxial_cable_02  conductor number  1
* node:  8 cable number:  1 type:coax name:coaxial_cable_02  conductor number  2
* node:  9 Ground plane
*
* Incident field function nodes:
*
*      2     3
*
.subckt  Coax_Gnd_EField
+     4     5     6
+     7     8     9
+     2     3
*
* D.C. RESISTANCE END 1
*
Rdc_c1_e1                          4    10    2.201463E-02
Rdc_c2_e1                          5    11    1.830000E-01
Rdc_c3_e1                          6     1    6.100000E-09
*
* D.C. RESISTANCE END 2
*
Rdc_c1_e2                          7    12    2.201463E-02
Rdc_c2_e2                          8    13    1.830000E-01
Rdc_c3_e2                          9     1    6.100000E-09
*
* DOMAIN TRANSFORMATION END 1
*
*
* Domain decomposition Voltage sources used for current sensing
*
Vmeas_domain_decomp_c1_e1         10    16
Vmeas_domain_decomp_c2_e1         11    18
*
* Domain decomposition Voltage controlled voltage sources (domain to conductor)
*
E_domain_decomp_c1_dc1_e1         16    17    14     1    1.000000E+00
E_domain_decomp_c1_dc2_e1         17     1    15     1    1.000000E+00
E_domain_decomp_c2_dc1_e1         18    19    14     1   -0.000000E+00
E_domain_decomp_c2_dc2_e1         19     1    15     1    1.000000E+00
*
* Domain decomposition Current controlled current sources (conductor to domain)
*
F_domain_decomp_c1_dc1_e1          1    14 Vmeas_domain_decomp_c1_e1         1.000000E+00
F_domain_decomp_c2_dc1_e1          1    14 Vmeas_domain_decomp_c2_e1         0.000000E+00
F_domain_decomp_c1_dc2_e1          1    15 Vmeas_domain_decomp_c1_e1         1.000000E+00
F_domain_decomp_c2_dc2_e1          1    15 Vmeas_domain_decomp_c2_e1         1.000000E+00
*
* DOMAIN TRANSFORMATION END 2
*
*
* Domain decomposition Voltage sources used for current sensing
*
Vmeas_domain_decomp_c1_e2         12    22
Vmeas_domain_decomp_c2_e2         13    24
*
* Domain decomposition Voltage controlled voltage sources (domain to conductor)
*
E_domain_decomp_c1_dc1_e2         22    23    20     1    1.000000E+00
E_domain_decomp_c1_dc2_e2         23     1    21     1    1.000000E+00
E_domain_decomp_c2_dc1_e2         24    25    20     1   -0.000000E+00
E_domain_decomp_c2_dc2_e2         25     1    21     1    1.000000E+00
*
* Domain decomposition Current controlled current sources (conductor to domain)
*
F_domain_decomp_c1_dc1_e2          1    20 Vmeas_domain_decomp_c1_e2         1.000000E+00
F_domain_decomp_c2_dc1_e2          1    20 Vmeas_domain_decomp_c2_e2         0.000000E+00
F_domain_decomp_c1_dc2_e2          1    21 Vmeas_domain_decomp_c1_e2         1.000000E+00
F_domain_decomp_c2_dc2_e2          1    21 Vmeas_domain_decomp_c2_e2         1.000000E+00
*
* DOMAIN      1
*
*
* Modal Decomposition
*
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d1_c1_e1        14    27
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d1_c1_m1_e1         27     1    26     1    1.00000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d1_c1_m1_e1          1    26 Vmeas_mode_decomp_d1_c1_e1        1.00000000E+00
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d1_c1_e2        20    29
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d1_c1_m1_e2         29     1    28     1    1.00000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d1_c1_m1_e2          1    28 Vmeas_mode_decomp_d1_c1_e2        1.00000000E+00
*
* Modal impedance: end1
*
RZCm_d1_m1_e1                     26    30    4.848574E+01
*
* Modal impedance: end2
*
RZCm_d1_m1_e2                     28    31    4.848574E+01
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d1_m1_e1                      30     1    32     1    1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d1_m1_e2                      31     1    33     1    1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d1_m1_e1                     33     1    34     1 Z0=    4.848574E+01 TD=    6.304414E-09
*
* Delay line for negative z propagation
*
T_mz_d1_m1_e2                     32     1    35     1 Z0=    4.848574E+01 TD=    6.304414E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d1_m1_e1                   33     1    4.848574E+01
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d1_m1_e2                   32     1    4.848574E+01
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d1_m1_e1                   34    36    26     1    2.000000E+00
E_m_pz_d1_m1_e2                   36     1    30     1   -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d1_m1_e1                   35    37    28     1    2.000000E+00
E_m_mz_d1_m1_e2                   37     1    31     1   -1.000000E+00
*
* DOMAIN      2
*
*
* Modal Decomposition
*
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d2_c1_e1        15    39
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d2_c1_m1_e1         39     1    38     1    1.00000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d2_c1_m1_e1          1    38 Vmeas_mode_decomp_d2_c1_e1        1.00000000E+00
*
* Modal decomposition Voltage sources used for current sensing
*
Vmeas_mode_decomp_d2_c1_e2        21    41
*
* Modal decomposition Voltage controlled voltage sources (mode to conductor)
*
E_mode_decomp_d2_c1_m1_e2         41     1    40     1    1.00000000E+00
*
* Modal decomposition Current controlled current sources (conductor to mode)
*
F_mode_decomp_d2_c1_m1_e2          1    40 Vmeas_mode_decomp_d2_c1_e2        1.00000000E+00
*
* Modal impedance: end1
*
RZCm_d2_m1_e1                     38    44    1.980799E+02
*
* Modal impedance: end2
*
RZCm_d2_m1_e2                     40    45    1.980799E+02
*
* Modal frequency dependent voltage controlled voltage source : end1
*
E_m_d2_m1_e1                      44    42    46     1    1.000000E+00
*
* Modal frequency dependent voltage controlled voltage source : end2
*
E_m_d2_m1_e2                      45    43    47     1    1.000000E+00
*
* Delay line for positive z propagation
*
T_pz_d2_m1_e1                     47     1    48     1 Z0=    1.980799E+02 TD=    4.069482E-09
*
* Delay line for negative z propagation
*
T_mz_d2_m1_e2                     46     1    49     1 Z0=    1.980799E+02 TD=    4.069482E-09
*
* Modal impedances on modal positive z propagation delay lines
*
RZC_pz_d2_m1_e1                   47     1    1.980799E+02
*
* Modal impedances on modal negative z propagation delay lines
*
RZC_mz_d2_m1_e2                   46     1    1.980799E+02
*
* Delay line frequency dependent controlled sources for positive z propagation
*
E_m_pz_d2_m1_e1                   48    50    38     1    2.000000E+00
E_m_pz_d2_m1_e2                   50     1    44     1   -1.000000E+00
*
* Delay line frequency dependent controlled sources for negative z propagation
*
E_m_mz_d2_m1_e1                   49    51    40     1    2.000000E+00
E_m_mz_d2_m1_e2                   51     1    45     1   -1.000000E+00
*
* START OF INCIDENT FIELD EXCITATION MODELS
*
*
* Incident field delay lines, Tz delay
*
T_Tz_Einc                         53     1    54     1 Z0=    0.500000E+02 TD=    0.203474E-08
*
* Matched impedance: Tz delay
*
RZC_Tz_Einc                       54     1    0.500000E+02
*
* Delay line controlled sources Tz delay
*
E1_Tz_Einc                        53     1     2     3    0.100000E+01
*
* Delay line Tz+T_victim(v_mode)
*
T_TzPTv_EINC_vm_1                 55     1    56     1 Z0=    0.500000E+02 TD=    0.610422E-08
*
* Matched impedance:  Tz+T_victim(v_mode) delay
*
RZC_TzPTv_EINC_vm_1               56     1    0.500000E+02
*
* Incident field delay line controlled source:  Tz+T_victim(v_mode) delay
*
E1_TzPTv_EINC_vm_1                55     1     2     3    0.100000E+01
*
* Incident field delay line T_victim(v_mode)
*
T_Tv_EINC_vm_1                    57     1    58     1 Z0=    0.500000E+02 TD=    0.406948E-08
*
* Matched impedance T_victim(v_mode) delay
*
RZC_Tv_EINC_vm_1                  58     1    0.500000E+02
*
* Controlled source for T_victim(v_mode) delay
*
E1_Tv_EINC_vm_1                   57     1     2     3    0.100000E+01
*
* Circuit to combine incident field excitation terms
*
E_zt_dsum_s_EINC_vm_1_E1          59     1     2     3    0.299883E-01
E_zt_dsum_s_EINC_vm_1_E2          60    59    56     1   -0.299883E-01
E_zt_dsum_l_EINC_vm_1_E1          61     1    58     1   -0.318364E-02
E_zt_dsum_l_EINC_vm_1_E2          62    61    54     1    0.318364E-02
*
* Large resistance to complete the circuit for the series voltage sources
*
R_Einc_dsum_l_EINC_vm_1           62     1    0.100000E+11
R_Einc_dsum_s_EINC_vm_1           60     1    0.100000E+11
*
* Incident field excitation sources, end 1
*
E_Einc_s_EINC_vm_1                42     1    60     1    1.000000E+00
*
* Incident field excitation sources, end 2
*
E_Einc_l_EINC_vm_1                43     1    62     1    1.000000E+00
*
.ends
*