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Release v1.0.0-beta - Initial release

master v1.0.0-beta
Joe DiPrima 2 months ago
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e91bb324dc
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30b3ae07d6
59 changed files with 829030 additions and 0 deletions
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  1. 47
      library/controllers/apwm.net
  2. 612
      profiles/default/default.json
  3. 225
      profiles/default/femm/spark_matrix.fee
  4. 214214
      profiles/default/femm/spark_matrix.res
  5. 213595
      profiles/default/femm/tesla_coil.ans
  6. 415
      profiles/default/femm/tesla_coil.fem
  7. 332
      profiles/default/femm/tesla_coil_electrostatic.fee
  8. 189314
      profiles/default/femm/tesla_coil_electrostatic.res
  9. 207346
      profiles/default/femm/tesla_coil_simple.ans
  10. 367
      profiles/default/femm/tesla_coil_simple.fem
  11. BIN
      profiles/default/images/electric_field.png
  12. BIN
      profiles/default/images/mode_field_0.png
  13. BIN
      profiles/default/images/mode_field_1.png
  14. BIN
      profiles/default/images/mode_field_2.png
  15. BIN
      profiles/default/images/mode_field_3.png
  16. BIN
      profiles/default/images/mode_field_4.png
  17. BIN
      profiles/default/images/mode_field_5.png
  18. BIN
      profiles/default/images/mode_plot_0.png
  19. BIN
      profiles/default/images/mode_plot_1.png
  20. BIN
      profiles/default/images/mode_plot_2.png
  21. BIN
      profiles/default/images/mode_plot_3.png
  22. BIN
      profiles/default/images/mode_plot_4.png
  23. BIN
      profiles/default/images/mode_plot_5.png
  24. BIN
      profiles/default/images/primary_field.png
  25. BIN
      profiles/default/images/secondary_field.png
  26. BIN
      profiles/default/images/stress_plot.png
  27. BIN
      profiles/default/images/stress_vi_profile.png
  28. BIN
      profiles/default/images/vi_profile.png
  29. 130
      profiles/default/ltspice/circuit_analysis_settings.json
  30. 18
      profiles/default/ltspice/circuit_analysis_settings.json.backup
  31. 18
      profiles/default/ltspice/circuit_analysis_settings.json.backup2
  32. 194
      profiles/default/ltspice/parasitic_modes.net
  33. 192
      profiles/default/ltspice/plotter_netlist.net
  34. BIN
      profiles/default/ltspice/plotter_netlist_1.fail
  35. 20
      profiles/default/ltspice/plotter_netlist_1.log
  36. 192
      profiles/default/ltspice/plotter_netlist_1.net
  37. BIN
      profiles/default/ltspice/plotter_netlist_1.raw
  38. 25
      profiles/default/ltspice/resonator_base.net
  39. 184
      profiles/default/ltspice/resonator_base_complex.net
  40. 11
      profiles/default/ltspice/spark_convergence_temp.net
  41. 2
      profiles/default/ltspice/spark_none.net
  42. 6
      profiles/default/ltspice/spark_parametric_R.net
  43. 14
      profiles/default/ltspice/sparks/spark_12inches.net
  44. 14
      profiles/default/ltspice/sparks/spark_24inches.net
  45. 14
      profiles/default/ltspice/sparks/spark_36inches.net
  46. 194
      profiles/default/ltspice/stress_analysis.net
  47. 194
      profiles/default/ltspice/stress_analysis_real_voltage.net
  48. 195
      profiles/default/ltspice/temp_impedance_netlist_1.net
  49. 195
      profiles/default/ltspice/temp_netlist_1.net
  50. 195
      profiles/default/ltspice/tesla.net
  51. 35
      profiles/default/ltspice/tesla_1v.net
  52. 18
      profiles/default/ltspice/tesla_1v_1.log
  53. 35
      profiles/default/ltspice/tesla_1v_1.net
  54. BIN
      profiles/default/ltspice/tesla_1v_1.raw
  55. 194
      profiles/default/ltspice/tesla_distributed.net
  56. 35
      profiles/default/ltspice/tesla_lumped.net
  57. 36
      profiles/default/ltspice/tesla_poles.net
  58. 203
      profiles/default/ltspice/tesla_spark_convergence.net
  59. BIN
      pyTesla.exe

47
library/controllers/apwm.net
View File

@ -0,0 +1,47 @@
* APWM
* Controller by Anders Mikkelsen
* Self-oscillating ZCS (Zero Current Switching) controller with phase-lead compensation
*
* CUSTOMIZABLE PARAMETERS:
* pvolts - Primary voltage (default: 330V)
* Adjust to match your bus voltage
*
* rlead - Phase lead resistor (default: 1k)
* Higher = less phase lead
*
* rfreq - Frequency compensation resistor (default: 2k)
* Affects self-oscillation frequency
*
* iscale - Current sense scaling (default: 0.05)
* Adjust based on CT ratio and sense resistor
.param pvolts=330
.param rlead=1k
.param rfreq=2k
.param iscale=0.05
.param rterm=50
V_5v p5v 0 5
R6 0 N012 1k
R7 N012 p5v 1k
Rbias N001 N012 100k
XU1 N014 N001 p5v 0 N008 LT1720
R1 N008 N014 22k
R4 N011 N008 {rfreq}
R3 N011 N001 1k
C1 N001 0 1n
XU2 N003 N001 p5v 0 N002 LT1720
Vramp N003 0 PULSE(0v 5v 100us 100n 100n 500us)
A1 N002 N008 0 0 0 0 N009 0 AND
T1 N009 0 N007 N010 Td=50n Z0={rterm}
R10 N007 N010 {rterm}
R5 N013 N012 {rlead}
C3 N013 N015 470p
R2 N014 N013 4k7
R9 N013 N016 1k
C4 N016 N015 10n
B2 N015 0 V=I(L1)*{iscale}
B1 vin 0 V=if(V(N009)>0.5, {pvolts/2}, -{pvolts/2})
.tran 0 600u 100u 10n startup
.lib LT1720.sub

612
profiles/default/default.json
View File

@ -0,0 +1,612 @@
{
"secondary_od": 9.652,
"secondary_ht": 16.509999999999998,
"ht_offset": 20.955,
"mw_insul": 0.0040132,
"mw_w_dia": 0.020193,
"wire_gauge": "32",
"secondary_turns_value": 585,
"toroid_major": 25.4,
"toroid_minor": 7.619999999999999,
"total_rings": 13,
"ring_diameter": 0.4826,
"tl_height": 41.91,
"disc_diameter": 17.779999999999994,
"disc_width": 0.254,
"disc_height": 0.0,
"breakout_wire_diameter": 0.254,
"breakout_length": 12.7,
"breakout_point_length": 2.54,
"breakout_height": 1.016,
"ferrite_height": 5.08,
"ferrite_width": 0.0,
"ferrite_radius": 4.064,
"ferrite_permeability": 2000.0,
"ferrite_conductivity": 1e-06,
"primary_type": "toroid",
"primary_parameters": {
"support_width": 2.54,
"support_height": 3.175,
"offset": 6.603999999999999,
"tube_diameter": 0.508,
"winding_start_height": 19.685,
"total_turns": 9,
"turns_cutoff": 0,
"tuning_point": 8
},
"ground_plane_width": 63.5,
"strike_ring_parameters": {
"number_of_rings": 2,
"height": 1.016,
"width": 1.5239999999999998,
"center_offset": 8.636,
"height_offset": 22.479,
"tube_diameter": 0.4826
},
"spice_inputs": {
"primary_current": 150.0,
"primary_capacitance": 0.03,
"secondary_mmc": 0.001,
"selected_pole": "upper",
"spark_selection": "",
"spark_length": 91.44,
"spark_resistance": 50.66,
"spark_c_mutual": 1.64,
"spark_c_shunt": 7.36,
"spark_actual_phase": "0.0\u00b0"
},
"units": "centimeters",
"display_units": "inches",
"frequency": 380411.44,
"num_sections": 10,
"magnetic_mesh": 2.54,
"electrostatic_mesh": 2.54,
"magnetic_solver_precision": 1e-06,
"electrostatic_solver_precision": 1e-06,
"images": [],
"femm_results_complex": {
"primary_inductance": 1.039362027049663e-05,
"total_length_of_secondary_wire_ft": 580.7624755747023,
"secondary_turns": 585.0,
"ac_resistance_of_primary_ohms": 0.07684303963432565,
"ac_resistance_of_secondary_ohms": 109.93088172193045,
"induction_parameters": {
"section_self": [
1.039362027049663e-05,
0.0005317883712898829,
0.0005527618581815833,
0.0005348909584537599,
0.0005534830920291543,
0.0005347403280831997,
0.0005519564995719794,
0.0005306185955490154,
0.0005439600834994453,
0.0005170839404594502,
0.0005194542988473846
],
"section_coupling": [
[
0.42775885504631334,
0.36248700186881594,
0.26903272178113374,
0.19096301184542344,
0.1345642785719219,
0.09494392406291964,
0.06690839918524681,
0.046552965292432046,
0.03129872182785004,
0.019674930408270324
],
[
0.5036332083285967,
0.25290803504146353,
0.14844959144066977,
0.0925237488687096,
0.05984764257464823,
0.03959923965954612,
0.026310467658904255,
0.017125935735942212,
0.010546519630541143
],
[
0.503775905036356,
0.2519028831114112,
0.14669354958020311,
0.09055797505930747,
0.05780720282190652,
0.0373400401047979,
0.023797969508007118,
0.01445059874103959
],
[
0.5045976918341424,
0.25188081998464706,
0.1458444588938986,
0.08916713290758298,
0.05574385907763506,
0.034672172953789056,
0.020712993987899355
],
[
0.5041432905483981,
0.25076248791340444,
0.14433541000507455,
0.08676741771356491,
0.052489850864416356,
0.030787178318551784
],
[
0.5026074461621589,
0.2485820211910561,
0.1410148971097289,
0.0823567552477634,
0.04725502124701621
],
[
0.5011990477153279,
0.24493781000517914,
0.135467382585431,
0.07548856197430992
],
[
0.4980604184984676,
0.2381639004254279,
0.12651697308306237
],
[
0.4918271861958355,
0.22742146755311587
],
[
0.4823456805445718
]
],
"section_ac_resistance": [
10.75073161138125,
11.31493449343926,
10.9872223583428,
11.11877629796648,
10.88516174786922,
11.08079729496604,
10.88276386463266,
11.12557186303114,
10.96027773638772,
10.82464445391386
],
"primary_ac_resistance": 0.07684303963432565
},
"c_self": [
0.2876954252206357,
0.08464218018897707,
0.1223605136333703,
0.17201448479070042,
0.20361472932489005,
0.21815624492109098,
0.20614990472248443,
0.18237919708946382,
0.1424842808372715,
0.1186098824184118,
9.851912474365328,
4.2420029187858095,
2.454205659870432
],
"c_matrix": [
[
14.53664042077779,
0.36602443904698356,
0.11706552158105961,
0.04770660410841287,
0.02117558928069594,
0.010149351526542961,
0.005139104672339598,
0.0027079618466387526,
0.001764327895132014,
0.02439187048099836,
4.77181258617105,
0.07355620423486026
],
[
17.41255044238404,
0.3962333358169554,
0.1299869486148368,
0.05424418104854272,
0.02554855564324687,
0.01290620585834485,
0.006712029646608598,
0.004257514819058388,
0.037625015794043454,
2.023249832032092,
0.1986462359031741
],
[
16.804586808523762,
0.4467397179946325,
0.15462348123069491,
0.0689228092161806,
0.03429839253785214,
0.01774747710609462,
0.01118429519790914,
0.09622533537351638,
0.9651708581072315,
0.36768201975559267
],
[
14.69328032708347,
0.4654882512905022,
0.16624478422442582,
0.0757524029321262,
0.03732775004739068,
0.02282569463149842,
0.1687499128450705,
0.46046258594138645,
0.3731185497143558
],
[
14.737897090969588,
0.47043730036262227,
0.17097856617218382,
0.07636072979600324,
0.04424533392521686,
0.2505002175414068,
0.2500610370366405,
0.2978029420679597
],
[
17.24873945503479,
0.47320982724972566,
0.16907520309125798,
0.08896891569064673,
0.3527475465757508,
0.1561641777292191,
0.22189706396926268
],
[
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0.4690434347781599,
0.19657888995166212,
0.48974980070865476,
0.1044061088221108,
0.1586909473558846
],
[
17.22944240620355,
0.5466064688231546,
0.7048370356783726,
0.07158216558697406,
0.1109000703427727
],
[
15.311042498127538,
1.090251744635521,
0.046864630133632366,
0.07261500632452347
],
[
3.177683456526757,
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0.053322990401104275
],
[
0.7549395790620664,
1.005987208303961
],
[
14.21502775807472
]
]
},
"femm_results_lumped": {
"primary_inductance": 1.0395007545687485e-05,
"secondary_inductance": 0.014511524859845928,
"mutual_inductance": 0.00012349008485871475,
"coupling_coefficient": 0.31795317018456865,
"total_length_of_secondary_wire_ft": 580.7624755747023,
"ac_resistance_of_primary_ohms": 0.08027815288466034,
"ac_resistance_of_secondary_ohms": 113.6134361203446,
"secondary_turns": 585.0,
"induction_parameters": {
"section_self": [
1.0395007545687485e-05,
0.014511524859845928
],
"section_coupling": [
[
0.31795317018456865
]
],
"section_ac_resistance": [
113.6134361203446
],
"primary_ac_resistance": 0.08027815288466034
},
"topload_capacitance_pF": 17.961147447025535,
"secondary_capacitance_pF": 0,
"total_capacitance_pF": 17.961147447025535,
"energy_capacitance_pF": 17.961147447025535
},
"active_simulation_type": "distributed",
"femm_results": {
"primary_inductance": 1.039362027049663e-05,
"total_length_of_secondary_wire_ft": 580.7624755747023,
"secondary_turns": 585.0,
"ac_resistance_of_primary_ohms": 0.07684303963432565,
"ac_resistance_of_secondary_ohms": 109.93088172193045,
"induction_parameters": {
"section_self": [
1.039362027049663e-05,
0.0005317883712898829,
0.0005527618581815833,
0.0005348909584537599,
0.0005534830920291543,
0.0005347403280831997,
0.0005519564995719794,
0.0005306185955490154,
0.0005439600834994453,
0.0005170839404594502,
0.0005194542988473846
],
"section_coupling": [
[
0.42775885504631334,
0.36248700186881594,
0.26903272178113374,
0.19096301184542344,
0.1345642785719219,
0.09494392406291964,
0.06690839918524681,
0.046552965292432046,
0.03129872182785004,
0.019674930408270324
],
[
0.5036332083285967,
0.25290803504146353,
0.14844959144066977,
0.0925237488687096,
0.05984764257464823,
0.03959923965954612,
0.026310467658904255,
0.017125935735942212,
0.010546519630541143
],
[
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],
[
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[
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[
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[
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],
[
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],
[
0.4918271861958355,
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],
[
0.4823456805445718
]
],
"section_ac_resistance": [
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11.31493449343926,
10.9872223583428,
11.11877629796648,
10.88516174786922,
11.08079729496604,
10.88276386463266,
11.12557186303114,
10.96027773638772,
10.82464445391386
],
"primary_ac_resistance": 0.07684303963432565
},
"c_self": [
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0.18237919708946382,
0.1424842808372715,
0.1186098824184118,
9.851912474365328,
4.2420029187858095,
2.454205659870432
],
"c_matrix": [
[
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0.04770660410841287,
0.02117558928069594,
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0.0027079618466387526,
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4.77181258617105,
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],
[
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0.01290620585834485,
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2.023249832032092,
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[
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],
[
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],
[
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0.07636072979600324,
0.04424533392521686,
0.2505002175414068,
0.2500610370366405,
0.2978029420679597
],
[
17.24873945503479,
0.47320982724972566,
0.16907520309125798,
0.08896891569064673,
0.3527475465757508,
0.1561641777292191,
0.22189706396926268
],
[
17.24119995075542,
0.4690434347781599,
0.19657888995166212,
0.48974980070865476,
0.1044061088221108,
0.1586909473558846
],
[
17.22944240620355,
0.5466064688231546,
0.7048370356783726,
0.07158216558697406,
0.1109000703427727
],
[
15.311042498127538,
1.090251744635521,
0.046864630133632366,
0.07261500632452347
],
[
3.177683456526757,
0.03460075552894814,
0.053322990401104275
],
[
0.7549395790620664,
1.005987208303961
],
[
14.21502775807472
]
]
},
"ltspice_results": {
"upper_pole": 380411.4411441144,
"lower_pole": 262239.0239023902,
"all_peaks": [
262239.0239023902,
380411.4411441144,
953877.5877587759,
1306595.2595259526,
1615223.222322232,
1907654.9654965496,
2220781.8781878185,
2483520.552055205
],
"primary_impedance_ohms": 0.23255332473531568,
"primary_impedance_phase": 7.762079509452217,
"input_voltage": 34.77175870061003,
"v_array": [
3358.2760693499663,
12426.616340029599,
25924.511181651913,
42983.02387036084,
61630.74056113361,
81650.6570565827,
101472.681138214,
120863.2866169169,
137884.48246401816,
151198.25672056194
],
"i_array": [
5.058433808684488,
5.411628429466013,
5.6778516824925,
5.81203790618616,
5.77911319662441,
5.805955816401604,
5.866317353574929,
5.768981000613572,
5.561318784234364,
5.20261960764394
],
"v_mmc": 2091.879027260925
},
"simulation_states": {
"auto_converge": "warning",
"ltspice_only": "success",
"stress": "success",
"mode": "success",
"lumped": "success",
"distributed": "success"
},
"unit_system_version": "1.0",
"internal_unit": "centimeters",
"migration_note": "All dimension values stored in centimeters for consistency"
}

225
profiles/default/femm/spark_matrix.fee
View File

@ -0,0 +1,225 @@
[Format] = 1
[Precision] = 9.9999999999999995e-07
[MinAngle] = 30
[DoSmartMesh] = 1
[Depth] = 1
[LengthUnits] = centimeters
[ProblemType] = axisymmetric
[Coordinates] = cartesian
[Comment] = "Add comments here."
[PointProps] = 0
[BdryProps] = 1
<BeginBdry>
<BdryName> = "open_bc"
<BdryType> = 1
<Vs> = 0
<qs> = 0
<c0> = 6.6398108863892009e-12
<c1> = 0
<EndBdry>
[BlockProps] = 1
<BeginBlock>
<BlockName> = "Air"
<ex> = 1
<ey> = 1
<qv> = 0
<EndBlock>
[ConductorProps] = 5
<BeginConductor>
<ConductorName> = "Topload"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Spark"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Primary"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Strike"
<Vc> = 1
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Ground"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
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214214
profiles/default/femm/spark_matrix.res
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213595
profiles/default/femm/tesla_coil.ans
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415
profiles/default/femm/tesla_coil.fem
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@ -0,0 +1,415 @@
[Format] = 4.0
[Frequency] = 354317.53000000003
[Precision] = 9.9999999999999995e-07
[MinAngle] = 30
[DoSmartMesh] = 1
[Depth] = 1
[LengthUnits] = centimeters
[ProblemType] = axisymmetric
[Coordinates] = cartesian
[ACSolver] = 1
[PrevType] = 0
[PrevSoln] = ""
[Comment] = "Add comments here."
[PointProps] = 0
[BdryProps] = 1
<BeginBdry>
<BdryName> = "open_bc"
<BdryType> = 0
<A_0> = 0
<A_1> = 0
<A_2> = 2.1126671002147461e-11
<Phi> = 0
<c0> = 0
<c0i> = 0
<c1> = 0
<c1i> = 0
<Mu_ssd> = 1
<Sigma_ssd> = 0
<innerangle> = 0
<outerangle> = 0
<EndBdry>
[BlockProps] = 6
<BeginBlock>
<BlockName> = "Air"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 0
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Aluminum, 6061-T6"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 26
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Ferrite"
<Mu_x> = 2000
<Mu_y> = 2000
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 9.9999999999999995e-07
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Secondary Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 3
<LamFill> = 0.69999999999999996
<NStrands> = 1
<WireD> = 0.20193
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Primary Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 3
<LamFill> = 0.69999999999999996
<NStrands> = 1
<WireD> = 5.0800000000000001
<BHPoints> = 0
<EndBlock>
[CircuitProps] = 11
<BeginCircuit>
<CircuitName> = "Primary"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_0"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_1"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_2"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_3"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_4"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_5"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_6"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_7"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_8"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_9"
<TotalAmps_re> = 1
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
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8.8899999999999988 38.341299999999997 3 2.54 0 0 0 1 0
4.4449999999999985 41.909999999999997 3 2.54 0 0 0 1 0
0.063500000000000001 48.005999999999993 3 2.54 0 0 0 1 0
0.042333333333333334 53.932666666666655 3 2.54 0 0 0 1 0
4.8401096999999993 21.780499999999996 5 2.54 2 0 2 58 0
4.8401096999999993 23.4315 5 2.54 3 0 3 59 0
4.8401096999999993 25.082499999999996 5 2.54 4 0 4 58 0
4.8401096999999993 26.733499999999999 5 2.54 5 0 5 59 0
4.8401096999999993 28.384499999999996 5 2.54 6 0 6 58 0
4.8401096999999993 30.035499999999999 5 2.54 7 0 7 59 0
4.8401096999999993 31.686499999999995 5 2.54 8 0 8 58 0
4.8401096999999993 33.337499999999999 5 2.54 9 0 9 59 0
4.8401096999999993 34.988499999999995 5 2.54 10 0 10 58 0
4.8401096999999993 36.639499999999991 5 2.54 11 0 11 59 0
6.6039999999999992 19.684999999999999 2 2.54 1 0 0 1 0
6.6039999999999992 20.659977048395621 2 2.54 1 0 0 1 0
6.6047955378657566 21.634944780548206 2 2.54 1 0 0 1 0
6.9920079000626538 22.503777837139921 2 2.54 1 0 0 1 0
7.8739999999999988 22.859999999999999 2 2.54 1 0 0 1 0
8.7559920999373411 22.503777837139921 2 2.54 1 0 0 1 0
9.143204462134241 21.634944780548206 2 2.54 1 0 0 1 0
9.1439999999999984 20.659977048395621 2 2.54 1 0 0 1 0

332
profiles/default/femm/tesla_coil_electrostatic.fee
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@ -0,0 +1,332 @@
[Format] = 1
[Precision] = 9.9999999999999995e-07
[MinAngle] = 30
[DoSmartMesh] = 1
[Depth] = 1
[LengthUnits] = centimeters
[ProblemType] = axisymmetric
[Coordinates] = cartesian
[Comment] = "Add comments here."
[PointProps] = 0
[BdryProps] = 1
<BeginBdry>
<BdryName> = "open_bc"
<BdryType> = 1
<Vs> = 0
<qs> = 0
<c0> = 2.1126671002147461e-11
<c1> = 0
<EndBdry>
[BlockProps] = 1
<BeginBlock>
<BlockName> = "Air"
<ex> = 1
<ey> = 1
<qv> = 0
<EndBlock>
[ConductorProps] = 14
<BeginConductor>
<ConductorName> = "Topload"
<Vc> = 100
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Ground"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Primary"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Strike"
<Vc> = 0
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_0"
<Vc> = 6.1232339957367661e-15
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_1"
<Vc> = 17.36481776669304
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_2"
<Vc> = 34.202014332566883
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_3"
<Vc> = 49.999999999999986
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_4"
<Vc> = 64.278760968653941
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_5"
<Vc> = 76.604444311897808
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_6"
<Vc> = 86.602540378443862
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_7"
<Vc> = 93.969262078590845
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_8"
<Vc> = 98.480775301220802
<qc> = 0
<ConductorType> = 1
<EndConductor>
<BeginConductor>
<ConductorName> = "Secondary_9"
<Vc> = 100
<qc> = 0
<ConductorType> = 1
<EndConductor>
[NumPoints] = 83
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11.739284858485524 40.12565 0 0 0
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9.0099920999373406 22.503777837139921 0 0 0
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10.401299999999999 22.478999999999999 0 0 0
9.9186999999999976 22.478999999999999 0 0 0
0 0 0 0 0
63.5 0 0 0 0
[NumSegments] = 46
0 81 -1 0 0 0 0
2 3 -1 0 0 0 5
4 5 -1 0 0 0 5
2 4 -1 0 0 0 5
3 5 -1 0 0 0 6
3 6 -1 0 0 0 6
5 7 -1 0 0 0 6
6 7 -1 0 0 0 7
6 8 -1 0 0 0 7
7 9 -1 0 0 0 7
8 9 -1 0 0 0 8
8 10 -1 0 0 0 8
9 11 -1 0 0 0 8
10 11 -1 0 0 0 9
10 12 -1 0 0 0 9
11 13 -1 0 0 0 9
12 13 -1 0 0 0 10
12 14 -1 0 0 0 10
13 15 -1 0 0 0 10
14 15 -1 0 0 0 11
14 16 -1 0 0 0 11
15 17 -1 0 0 0 11
16 17 -1 0 0 0 12
16 18 -1 0 0 0 12
17 19 -1 0 0 0 12
18 19 -1 0 0 0 13
18 20 -1 0 0 0 13
19 21 -1 0 0 0 13
20 21 -1 0 0 0 14
20 22 -1 0 0 0 14
21 23 -1 0 0 0 14
22 23 -1 0 0 0 14
50 51 -1 0 0 0 1
51 54 -1 0 0 0 0
52 53 -1 0 0 0 1
50 52 -1 0 0 0 1
51 53 -1 0 0 0 1
54 55 -1 0 0 0 1
55 58 -1 0 0 0 1
56 57 -1 0 0 0 1
54 56 -1 0 0 0 1
55 57 -1 0 0 0 1
58 1 -1 0 0 0 0
58 57 -1 0 0 0 1
81 50 -1 0 0 0 0
81 82 -1 0 0 0 2
[NumArcSegments] = 49
0 1 180 1 1 0 0 0 1
24 25 180 1 0 0 0 1 1
25 24 180 1 0 0 0 1 1
26 27 180 1 0 0 0 1 1
27 26 180 1 0 0 0 1 1
28 29 180 1 0 0 0 1 1
29 28 180 1 0 0 0 1 1
30 31 180 1 0 0 0 1 1
31 30 180 1 0 0 0 1 1
32 33 180 1 0 0 0 1 1
33 32 180 1 0 0 0 1 1
34 35 180 1 0 0 0 1 1
35 34 180 1 0 0 0 1 1
36 37 180 1 0 0 0 1 1
37 36 180 1 0 0 0 1 1
38 39 180 1 0 0 0 1 1
39 38 180 1 0 0 0 1 1
40 41 180 1 0 0 0 1 1
41 40 180 1 0 0 0 1 1
42 43 180 1 0 0 0 1 1
43 42 180 1 0 0 0 1 1
44 45 180 1 0 0 0 1 1
45 44 180 1 0 0 0 1 1
46 47 180 1 0 0 0 1 1
47 46 180 1 0 0 0 1 1
48 49 180 1 0 0 0 1 1
49 48 180 1 0 0 0 1 1
59 60 180 2.54 0 0 0 3 1
60 59 180 2.54 0 0 0 0 1
61 62 180 2.54 0 0 0 3 1
62 61 180 2.54 0 0 0 0 1
63 64 180 2.54 0 0 0 3 1
64 63 180 2.54 0 0 0 0 1
65 66 180 2.54 0 0 0 3 1
66 65 180 2.54 0 0 0 0 1
67 68 180 2.54 0 0 0 3 1
68 67 180 2.54 0 0 0 0 1
69 70 180 2.54 0 0 0 3 1
70 69 180 2.54 0 0 0 0 1
71 72 180 2.54 0 0 0 3 1
72 71 180 2.54 0 0 0 0 1
73 74 180 2.54 0 0 0 3 1
74 73 180 2.54 0 0 0 0 1
75 76 180 2.54 0 0 0 3 1
76 75 180 2.54 0 0 0 0 1
77 78 180 2.54 0 0 0 4 1
78 77 180 2.54 0 0 0 0 1
79 80 180 2.54 0 0 0 4 1
80 79 180 2.54 0 0 0 0 1
[NumHoles] = 0
[NumBlockLabels] = 38
21.509999999999998 41.909999999999997 1 2.54 0 0
4.8339881999999994 21.780499999999996 1 2.54 0 0
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10.674349999999999 38.819415141514469 1 2.54 0 0
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9.1439999999999984 19.684999999999999 1 -1 0 0
9.3979999999999997 23.494999999999997 1 -1 0 0
10.159999999999998 22.478999999999999 1 -1 0 0

189314
profiles/default/femm/tesla_coil_electrostatic.res
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207346
profiles/default/femm/tesla_coil_simple.ans
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367
profiles/default/femm/tesla_coil_simple.fem
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@ -0,0 +1,367 @@
[Format] = 4.0
[Frequency] = 380411.44
[Precision] = 9.9999999999999995e-07
[MinAngle] = 30
[DoSmartMesh] = 1
[Depth] = 1
[LengthUnits] = centimeters
[ProblemType] = axisymmetric
[Coordinates] = cartesian
[ACSolver] = 1
[PrevType] = 0
[PrevSoln] = ""
[Comment] = "Add comments here."
[PointProps] = 0
[BdryProps] = 1
<BeginBdry>
<BdryName> = "open_bc"
<BdryType> = 0
<A_0> = 0
<A_1> = 0
<A_2> = 2.1126671002147461e-11
<Phi> = 0
<c0> = 0
<c0i> = 0
<c1> = 0
<c1i> = 0
<Mu_ssd> = 1
<Sigma_ssd> = 0
<innerangle> = 0
<outerangle> = 0
<EndBdry>
[BlockProps] = 6
<BeginBlock>
<BlockName> = "Air"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 0
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Aluminum, 6061-T6"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 26
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Ferrite"
<Mu_x> = 2000
<Mu_y> = 2000
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 9.9999999999999995e-07
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 0
<LamFill> = 1
<NStrands> = 0
<WireD> = 0
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Secondary Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 3
<LamFill> = 0.69999999999999996
<NStrands> = 1
<WireD> = 0.20193
<BHPoints> = 0
<EndBlock>
<BeginBlock>
<BlockName> = "Primary Copper"
<Mu_x> = 1
<Mu_y> = 1
<H_c> = 0
<H_cAngle> = 0
<J_re> = 0
<J_im> = 0
<Sigma> = 58
<d_lam> = 0
<Phi_h> = 0
<Phi_hx> = 0
<Phi_hy> = 0
<LamType> = 3
<LamFill> = 0.69999999999999996
<NStrands> = 1
<WireD> = 5.0800000000000001
<BHPoints> = 0
<EndBlock>
[CircuitProps] = 12
<BeginCircuit>
<CircuitName> = "Primary"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_0"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_1"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_2"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_3"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_4"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_5"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_6"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_7"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_8"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_9"
<TotalAmps_re> = 0
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
<BeginCircuit>
<CircuitName> = "Secondary_Simple"
<TotalAmps_re> = 1
<TotalAmps_im> = 0
<CircuitType> = 1
<EndCircuit>
[NumPoints] = 57
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9.3979999999999979 20.659977048395621 0 0
8.8899999999999988 20.659977048395621 0 0
[NumSegments] = 17
0 28 -1 0 0 0
28 29 -1 0 0 0
29 32 -1 0 0 0
30 31 -1 0 0 0
28 30 -1 0 0 0
29 31 -1 0 0 0
32 33 -1 0 0 0
33 36 -1 0 0 0
34 35 -1 0 0 0
32 34 -1 0 0 0
33 35 -1 0 0 0
36 1 -1 0 0 0
36 35 -1 0 0 0
37 38 -1 0 0 0
39 40 -1 0 0 0
37 39 -1 0 0 0
38 40 -1 0 0 0
[NumArcSegments] = 43
0 1 180 1 1 0 0 1
2 3 180 1 0 0 0 1
3 2 180 1 0 0 0 1
4 5 180 1 0 0 0 1
5 4 180 1 0 0 0 1
6 7 180 1 0 0 0 1
7 6 180 1 0 0 0 1
8 9 180 1 0 0 0 1
9 8 180 1 0 0 0 1
10 11 180 1 0 0 0 1
11 10 180 1 0 0 0 1
12 13 180 1 0 0 0 1
13 12 180 1 0 0 0 1
14 15 180 1 0 0 0 1
15 14 180 1 0 0 0 1
16 17 180 1 0 0 0 1
17 16 180 1 0 0 0 1
18 19 180 1 0 0 0 1
19 18 180 1 0 0 0 1
20 21 180 1 0 0 0 1
21 20 180 1 0 0 0 1
22 23 180 1 0 0 0 1
23 22 180 1 0 0 0 1
24 25 180 1 0 0 0 1
25 24 180 1 0 0 0 1
26 27 180 1 0 0 0 1
27 26 180 1 0 0 0 1
41 42 180 1 0 0 0 1
42 41 180 1 0 0 0 1
43 44 180 1 0 0 0 1
44 43 180 1 0 0 0 1
45 46 180 1 0 0 0 1
46 45 180 1 0 0 0 1
47 48 180 1 0 0 0 1
48 47 180 1 0 0 0 1
49 50 180 1 0 0 0 1
50 49 180 1 0 0 0 1
51 52 180 1 0 0 0 1
52 51 180 1 0 0 0 1
53 54 180 1 0 0 0 1
54 53 180 1 0 0 0 1
55 56 180 1 0 0 0 1
56 55 180 1 0 0 0 1
[NumHoles] = 0
[NumBlockLabels] = 26
21.509999999999998 41.909999999999997 1 2.54 0 0 0 1 0
8.8899999999999988 45.478699999999996 3 2.54 0 0 0 1 0
9.8136475262573644 45.357099496277797 3 2.54 0 0 0 1 0
10.674349999999999 45.000584858485524 3 2.54 0 0 0 1 0
11.41345197002043 44.433451970020428 3 2.54 0 0 0 1 0
11.980584858485525 43.69435 3 2.54 0 0 0 1 0
12.337099496277796 42.833647526257366 3 2.54 0 0 0 1 0
12.458699999999999 41.909999999999997 3 2.54 0 0 0 1 0
12.337099496277796 40.986352473742635 3 2.54 0 0 0 1 0
11.980584858485525 40.12565 3 2.54 0 0 0 1 0
11.41345197002043 39.386548029979565 3 2.54 0 0 0 1 0
10.67435 38.819415141514469 3 2.54 0 0 0 1 0
9.8136475262573661 38.462900503722196 3 2.54 0 0 0 1 0
8.8899999999999988 38.341299999999997 3 2.54 0 0 0 1 0
4.4449999999999985 41.909999999999997 3 2.54 0 0 0 1 0
0.063500000000000001 48.005999999999993 3 2.54 0 0 0 1 0
0.042333333333333334 53.932666666666655 3 2.54 0 0 0 1 0
4.8401096999999993 29.209999999999997 5 2.54 12 0 2 585 0
6.6039999999999992 19.684999999999999 2 2.54 1 0 0 1 0
6.6039999999999992 20.659977048395621 2 2.54 1 0 0 1 0
6.6047955378657566 21.634944780548206 2 2.54 1 0 0 1 0
6.9920079000626538 22.503777837139921 2 2.54 1 0 0 1 0
7.8739999999999988 22.859999999999999 2 2.54 1 0 0 1 0
8.7559920999373411 22.503777837139921 2 2.54 1 0 0 1 0
9.143204462134241 21.634944780548206 2 2.54 1 0 0 1 0
9.1439999999999984 20.659977048395621 2 2.54 1 0 0 1 0

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profiles/default/ltspice/circuit_analysis_settings.json
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{
"analysis_presets": [
{
"name": "Standard sweep",
"directive": ".ac lin 1000 1k 500k",
"description": "1kHz-500kHz, 1000 points (multi-line supported)"
},
{
"name": "fft",
"directive": ".param freq=364.5k\n.param period={1/freq}\n.param trise=200n\n.param tfall=200n\n.param duty=0.5\n.param ton={period*duty - (trise+tfall)/2}\n\nV1 vin 0 PULSE(0 1 0 {trise} {tfall} {ton} {period})\n.tran 0 2000us 0 50n\n.end",
"description": ""
}
],
"plot_configurations": [
{
"name": "Power Sweep (Rval)",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_type": "distributed",
"spark_load": "R Load (parametric)",
"ac_directive": ".step dec param Rval 10k 10Meg 20\n.ac lin 1 380000 380000",
"measurements": [
"V(top)*I(R_load)"
],
"show_phase": true,
"log_freq": false,
"log_mag": false,
"use_db": false,
"description": "Parametric sweep to find optimal load resistance",
"ac_preset": "",
"measurement_preset": "",
"analysis_mode": "ac",
"display_mode": "time_domain"
},
{
"name": "Frequency Response",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_type": "distributed",
"spark_load": "None",
"ac_directive": ".ac lin 1000 100k 2500k",
"measurements": [
"I(L1)"
],
"show_phase": true,
"log_freq": false,
"log_mag": false,
"use_db": true,
"description": "Standard frequency sweep with topload voltage and input impedance",
"ac_preset": "",
"measurement_preset": "",
"analysis_mode": "ac",
"display_mode": "time_domain"
},
{
"name": "Voltage Distribution",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_type": "distributed",
"spark_load": "None",
"ac_directive": ".ac lin 1000 100k 3500k",
"measurements": [
"V(top)",
"V(s9)",
"V(s8)",
"V(s7)",
"V(s6)",
"V(s5)",
"V(s4)",
"V(s3)",
"V(s2)",
"V(s1)"
],
"show_phase": false,
"log_freq": false,
"log_mag": false,
"use_db": true,
"description": "Voltage at different coil sections",
"ac_preset": "Standard sweep",
"measurement_preset": "Voltage Distribution",
"analysis_mode": "ac",
"display_mode": "time_domain"
},
{
"name": "Transient - Time Domain",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_type": "distributed",
"spark_load": "None",
"ac_directive": "* APWM \n* Controller by Anders Mikkelsen\n* Self-oscillating ZCS (Zero Current Switching) controller with phase-lead compensation\n*\n* CUSTOMIZABLE PARAMETERS:\n* pvolts - Primary voltage (default: 330V)\n* Adjust to match your bus voltage\n*\n* rlead - Phase lead resistor (default: 1k)\n* Higher = less phase lead\n*\n* rfreq - Frequency compensation resistor (default: 2k)\n* Affects self-oscillation frequency\n*\n* iscale - Current sense scaling (default: 0.05)\n* Adjust based on CT ratio and sense resistor\n\n.param pvolts=330\n.param rlead=1k\n.param rfreq=2k\n.param iscale=0.05\n.param rterm=50\n\nV_5v p5v 0 5\nR6 0 N012 1k\nR7 N012 p5v 1k\nRbias N001 N012 100k\nXU1 N014 N001 p5v 0 N008 LT1720\nR1 N008 N014 22k\nR4 N011 N008 {rfreq}\nR3 N011 N001 1k\nC1 N001 0 1n\nXU2 N003 N001 p5v 0 N002 LT1720\nVramp N003 0 PULSE(0v 5v 100us 100n 100n 500us)\nA1 N002 N008 0 0 0 0 N009 0 AND\nT1 N009 0 N007 N010 Td=50n Z0={rterm}\nR10 N007 N010 {rterm}\nR5 N013 N012 {rlead}\nC3 N013 N015 470p\nR2 N014 N013 4k7\nR9 N013 N016 1k\nC4 N016 N015 10n\nB2 N015 0 V=I(L1)*{iscale}\nB1 vin 0 V=if(V(N009)>0.5, {pvolts/2}, -{pvolts/2})\n\n.tran 0 600u 100u 10n startup\n.lib LT1720.sub",
"measurements": [
"I(L1)"
],
"show_phase": true,
"log_freq": false,
"log_mag": false,
"use_db": false,
"analysis_mode": "transient",
"display_mode": "time_domain",
"description": "ZCS transient analysis with phase-lead controller",
"ac_preset": "",
"measurement_preset": ""
},
{
"name": "Transient - FFT Example",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_type": "distributed",
"spark_load": "None",
"ac_directive": "* APWM \n* Controller by Anders Mikkelsen\n* Self-oscillating ZCS (Zero Current Switching) controller with phase-lead compensation\n*\n* CUSTOMIZABLE PARAMETERS:\n* pvolts - Primary voltage (default: 330V)\n* Adjust to match your bus voltage\n*\n* rlead - Phase lead resistor (default: 1k)\n* Higher = less phase lead\n*\n* rfreq - Frequency compensation resistor (default: 2k)\n* Affects self-oscillation frequency\n*\n* iscale - Current sense scaling (default: 0.05)\n* Adjust based on CT ratio and sense resistor\n\n.param pvolts=330\n.param rlead=1k\n.param rfreq=2k\n.param iscale=0.05\n.param rterm=50\n\nV_5v p5v 0 5\nR6 0 N012 1k\nR7 N012 p5v 1k\nRbias N001 N012 100k\nXU1 N014 N001 p5v 0 N008 LT1720\nR1 N008 N014 22k\nR4 N011 N008 {rfreq}\nR3 N011 N001 1k\nC1 N001 0 1n\nXU2 N003 N001 p5v 0 N002 LT1720\nVramp N003 0 PULSE(0v 5v 100us 100n 100n 500us)\nA1 N002 N008 0 0 0 0 N009 0 AND\nT1 N009 0 N007 N010 Td=50n Z0={rterm}\nR10 N007 N010 {rterm}\nR5 N013 N012 {rlead}\nC3 N013 N015 470p\nR2 N014 N013 4k7\nR9 N013 N016 1k\nC4 N016 N015 10n\nB2 N015 0 V=I(L1)*{iscale}\nB1 vin 0 V=if(V(N009)>0.5, {pvolts/2}, -{pvolts/2})\n\n.tran 0 600u 100u 10n startup\n.lib LT1720.sub",
"measurements": [
"v(s5)"
],
"show_phase": false,
"log_freq": false,
"log_mag": false,
"use_db": false,
"analysis_mode": "transient",
"display_mode": "fft",
"description": "Transient analysis with FFT using .four directive",
"ac_preset": "",
"measurement_preset": ""
}
]
}

18
profiles/default/ltspice/circuit_analysis_settings.json.backup
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{
"show_phase": false,
"log_freq": false,
"log_mag": false,
"use_db": true,
"measurements": [
"V(s0)",
"V(s5)",
"V(top)"
],
"current_preset": "Standard sweep",
"custom_directive": ".ac lin 1000 1k 500k",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_complex": true,
"spark_selection": "None"
}

18
profiles/default/ltspice/circuit_analysis_settings.json.backup2
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{
"show_phase": false,
"log_freq": false,
"log_mag": false,
"use_db": true,
"measurements": [
"V(s0)",
"V(s5)",
"V(top)"
],
"current_preset": "Standard sweep",
"custom_directive": ".ac lin 1000 1k 500k",
"voltage": "1V",
"mmc_primary": "0.03",
"mmc_secondary": "0.001",
"resonator_complex": true,
"spark_selection": "None"
}

194
profiles/default/ltspice/parasitic_modes.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* AC sweep analysis module
.ac dec 100 1000 10000000.0
.end

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profiles/default/ltspice/plotter_netlist.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1.0
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load
.ac dec 100 100 10M

BIN
profiles/default/ltspice/plotter_netlist_1.fail
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profiles/default/ltspice/plotter_netlist_1.log
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Circuit: * Composite Tesla Coil Netlist
WARNING: Node S10 is floating.
Date: Fri Nov 07 13:24:06 2025
Total elapsed time: 0.086 seconds.
tnom = 27
temp = 27
method = trap
totiter = 0
traniter = 0
tranpoints = 0
accept = 0
rejected = 0
matrix size = 27
fillins = 92
solver = Alternate

192
profiles/default/ltspice/plotter_netlist_1.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1.0
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load
.ac dec 100 100 10M

BIN
profiles/default/ltspice/plotter_netlist_1.raw
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25
profiles/default/ltspice/resonator_base.net
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* Tesla Coil Base Resonator (Lumped)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 273.7820484758246
* MMC capacitor module
C_mmc vin p1 0.03u
* Lumped resonator module
* Primary inductor
L1 p1 0 10.395u Rser=0.080278
* Secondary inductor
L2 0 top 14.512m Rser=113.613436
* Topload capacitance
C_topload top 0 17.961147447025535p
* Secondary MMC capacitance
C_secondary_mmc top 0 0.001p
* Mutual coupling
K1 L1 L2 0.31795317018456865

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profiles/default/ltspice/resonator_base_complex.net
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* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 34.77175870061003
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6

11
profiles/default/ltspice/spark_convergence_temp.net
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* Temporary Spark for Convergence
* Spark load module - dual capacitance
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_shunt
* top -> (Rspark || Cmutual) -> spark_node -> Cshunt -> ground
Rspark top spark_node 50.65956822210045k
Cmutual top spark_node 1.6444639279093751p
Cshunt spark_node 0 7.359511220416813p

2
profiles/default/ltspice/spark_none.net
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* No spark load - topload is open circuit
* This module intentionally contains no components

6
profiles/default/ltspice/spark_parametric_R.net
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* Parametric R Load for Sweep Analysis
* Generated by PyTesla - Plotter-Only Module
* Use with: .step param Rval 10k 1Meg 10k
R_load top 0 {Rval}

14
profiles/default/ltspice/sparks/spark_12inches.net
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* Spark Module: spark_12inches
* Generated by PyTesla - Modular Spark Library
* Parameters: R=127.56902148497771kOhm, C_mutual=1.109110148742907pF, C_shunt=2.2800508902059624pF, Phase=-63.1 deg
* Spark load module - dual capacitance
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_shunt
* top -> (Rspark || Cmutual) -> spark_node -> Cshunt -> ground
Rspark top spark_node 127.56902148497771k
Cmutual top spark_node 1.109110148742907p
Cshunt spark_node 0 2.2800508902059624p

14
profiles/default/ltspice/sparks/spark_24inches.net
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* Spark Module: spark_24inches
* Generated by PyTesla - Modular Spark Library
* Parameters: R=75.06316146965895kOhm, C_mutual=1.359391204356329pF, C_shunt=4.544767555560362pF, Phase=-58.0 deg
* Spark load module - dual capacitance
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_shunt
* top -> (Rspark || Cmutual) -> spark_node -> Cshunt -> ground
Rspark top spark_node 75.06316146965895k
Cmutual top spark_node 1.359391204356329p
Cshunt spark_node 0 4.544767555560362p

14
profiles/default/ltspice/sparks/spark_36inches.net
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* Spark Module: spark_36inches
* Generated by PyTesla - Modular Spark Library
* Parameters: R=50.65956822210045kOhm, C_mutual=1.6444639279093751pF, C_shunt=7.359511220416813pF, Phase=-55.4 deg
* Spark load module - dual capacitance
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_shunt
* top -> (Rspark || Cmutual) -> spark_node -> Cshunt -> ground
Rspark top spark_node 50.65956822210045k
Cmutual top spark_node 1.6444639279093751p
Cshunt spark_node 0 7.359511220416813p

194
profiles/default/ltspice/stress_analysis.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 380411.4411441144 380411.4411441144
.end

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profiles/default/ltspice/stress_analysis_real_voltage.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 34.77175870061003
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 380411.4411441144 380411.4411441144
.end

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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* AC sweep analysis module
.ac lin 1 380411.4411441144 380411.4411441144
.end

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profiles/default/ltspice/temp_netlist_1.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 34.77175870061003
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 380411.4411441144 380411.4411441144
.end

195
profiles/default/ltspice/tesla.net
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* Tesla Coil FFT Analysis Netlist
* Generated by PyTesla
* Primary excitation source
V1 Vin 0 AC 360.1317082628512
* MMC Capacitor
C_mmc Vin p1 0.03u
* Primary inductor
L1 p1 0 1.0410193389104066e-05 Rser=0.08106268136212019
* Secondary section inductors
L2 s0 s1 0.0005180563594705853 Rser=10.76061505577891
L3 s1 s2 0.0005378827716883946 Rser=11.35593383460871
L4 s2 s3 0.0005210032747402908 Rser=11.01666632202757
L5 s3 s4 0.000539396599231802 Rser=11.13538229428093
L6 s4 s5 0.000539110541750929 Rser=11.09038303969239
L7 s5 s6 0.0005198621925243613 Rser=10.86667638555367
L8 s6 s7 0.0005354168285261699 Rser=11.08585231645344
L9 s7 s8 0.0005128373791077491 Rser=10.91670165391317
L10 s8 s9 0.0005223923155837614 Rser=11.18989035458324
L11 s9 top 0.0005089965954685473 Rser=10.86182048735855
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.4371341924098699
K1_3 L1 L3 0.39147566063457095
K1_4 L1 L4 0.2909451574254769
K1_5 L1 L5 0.2021365231320403
K1_6 L1 L6 0.139160279846653
K1_7 L1 L7 0.09613293980735016
K1_8 L1 L8 0.0665286806248184
K1_9 L1 L9 0.04563413404369182
K1_10 L1 L10 0.030328018521120867
K1_11 L1 L11 0.01888563434383064
K2_3 L2 L3 0.4936922340879144
K2_4 L2 L4 0.24117659159383434
K2_5 L2 L5 0.13813405824315292
K2_6 L2 L6 0.08452530720943341
K2_7 L2 L7 0.05386917247444254
K2_8 L2 L8 0.035214660767394906
K2_9 L2 L9 0.02319935024699341
K2_10 L2 L10 0.014998181086694228
K2_11 L2 L11 0.009179087133558014
K3_4 L3 L4 0.4920665088788687
K3_5 L3 L5 0.23820909031102527
K3_6 L3 L6 0.1355614467177667
K3_7 L3 L7 0.08212815779438451
K3_8 L3 L8 0.05160932690678361
K3_9 L3 L9 0.03296538645435924
K3_10 L3 L10 0.02082654071796398
K3_11 L3 L11 0.012550639563788926
K4_5 L4 L5 0.4926013096462919
K4_6 L4 L6 0.23833563225997703
K4_7 L4 L7 0.13467744079029062
K4_8 L4 L8 0.08060341935305805
K4_9 L4 L9 0.049597989078862856
K4_10 L4 L10 0.030472575180079467
K4_11 L4 L11 0.01802161009704014
K5_6 L5 L6 0.4930735733565247
K5_7 L5 L7 0.2381411900463855
K5_8 L5 L8 0.13344661868720414
K5_9 L5 L9 0.07855669501407395
K5_10 L5 L10 0.04674584316437519
K5_11 L5 L11 0.02706044621350868
K6_7 L6 L7 0.49203313751943134
K6_8 L6 L8 0.23591125800528134
K6_9 L6 L9 0.13051322573347393
K6_10 L6 L10 0.07468780387865895
K6_11 L6 L11 0.042162590249663984
K7_8 L7 L8 0.4902213707372254
K7_9 L7 L9 0.23249650211204373
K7_10 L7 L10 0.12557081889842941
K7_11 L7 L11 0.06862428020542631
K8_9 L8 L9 0.48712871292395193
K8_10 L8 L10 0.22664512499956874
K8_11 L8 L11 0.11778344423231037
K9_10 L9 L10 0.4817627316833869
K9_11 L9 L11 0.21715005025450906
K10_11 L10 L11 0.47311543199069317
* Shunt capacitances
Cp_self p1 0 3.4588426400429846p
Cs0_self s1 0 0.3490018234930199p
Cs1_self s2 0 0.06006029221260206p
Cs2_self s3 0 0.07743356058929352p
Cs3_self s4 0 0.1387009658926316p
Cs4_self s5 0 0.19078601466438283p
Cs5_self s6 0 0.2183690203648206p
Cs6_self s7 0 0.21843975830883394p
Cs7_self s8 0 0.19950785900086143p
Cs8_self s9 0 0.1708438298039104p
Cs9_self top 0 0.20496031434910963p
Ctop_self top 0 8.937490057664771p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 3.019317766372218p
* Mutual capacitances between sections
C0_mut s1 s2 14.10809599300568p
C1_mut s1 s3 0.33014230566912256p
C2_mut s1 s4 0.10110780405274561p
C3_mut s1 s5 0.039645642776354406p
C4_mut s1 s6 0.01700402396884871p
C5_mut s1 s7 0.008236760747897792p
C6_mut s1 s8 0.004249473872094103p
C7_mut s1 s9 0.0024166775542586883p
C8_mut s1 top 0.001752500575335055p
C9_mut s1 top 0.03121620686506579p
C10_mut s1 p1 4.989618321360155p
C11_mut s1 sr 0.11453506966467229p
C12_mut s2 s3 14.577488753132371p
C13_mut s2 s4 0.34754547464223046p
C14_mut s2 s5 0.10386760404648511p
C15_mut s2 s6 0.03946434803890378p
C16_mut s2 s7 0.017133005145845828p
C17_mut s2 s8 0.007789477238585768p
C18_mut s2 s9 0.003834429634089643p
C19_mut s2 top 0.002337323061725175p
C20_mut s2 top 0.01648468996129504p
C21_mut s2 p1 2.351776328266889p
C22_mut s2 sr 0.3747314807595102p
C23_mut s3 s4 15.12447429272962p
C24_mut s3 s5 0.4075559000700353p
C25_mut s3 s6 0.1313445392915886p
C26_mut s3 s7 0.055023179607865694p
C27_mut s3 s8 0.025389353951835638p
C28_mut s3 s9 0.01277793338383981p
C29_mut s3 top 0.007899231591343153p
C30_mut s3 top 0.05674561094370276p
C31_mut s3 p1 0.911118415980321p
C32_mut s3 sr 0.874466796531834p
C33_mut s4 s5 14.75213928152238p
C34_mut s4 s6 0.44663025937556p
C35_mut s4 s7 0.15546715431294872p
C36_mut s4 s8 0.06737384583904663p
C37_mut s4 s9 0.03292982826396002p
C38_mut s4 top 0.01997197727021368p
C39_mut s4 top 0.132777546895269p
C40_mut s4 p1 0.3020076838743861p
C41_mut s4 sr 0.844776163695106p
C42_mut s5 s6 16.68303793676029p
C43_mut s5 s7 0.4679490166729326p
C44_mut s5 s8 0.1637171062050602p
C45_mut s5 s9 0.07300409804319914p
C46_mut s5 top 0.041904787238865565p
C47_mut s5 top 0.22277861578051958p
C48_mut s5 p1 0.13981556850857008p
C49_mut s5 sr 0.5934138252699098p
C50_mut s6 s7 17.1186831961456p
C51_mut s6 s8 0.466183420399679p
C52_mut s6 s9 0.165936773541241p
C53_mut s6 top 0.08613184056295671p
C54_mut s6 top 0.3282729011902705p
C55_mut s6 p1 0.08952502250564648p
C56_mut s6 sr 0.3981840387995869p
C57_mut s7 s8 15.22309889509915p
C58_mut s7 s9 0.47573871408521096p
C59_mut s7 top 0.1958894185050363p
C60_mut s7 top 0.46035949163502154p
C61_mut s7 p1 0.06399422887378398p
C62_mut s7 sr 0.2650357014155881p
C63_mut s8 s9 14.7897075600619p
C64_mut s8 top 0.5417528912835127p
C65_mut s8 top 0.6580303922312429p
C66_mut s8 p1 0.04659898003926528p
C67_mut s8 sr 0.1771094911321231p
C68_mut s9 top 17.39198665667278p
C69_mut s9 top 1.029349885601815p
C70_mut s9 p1 0.03300481382102293p
C71_mut s9 sr 0.1162973278557358p
C72_mut s10 top 2.8521208586634p
C73_mut s10 p1 0.02710075228797667p
C74_mut s10 sr 0.0877111968060312p
C75_mut top p1 0.5766655913273105p
C76_mut top sr 1.329293990582575p
C77_mut p1 sr 18.47047706489297p
* Strike ring ground connection
Rsr sr 0 1e-6
* Spark model - dual capacitance (mutual + self)
* Based on FEMM simulation with topload context
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_self
* top -> (Rspark || Cmutual) -> spark_node -> Cself -> ground
Rspark top spark_node 121.04k
Cmutual top spark_node 1.98p
Cshunt spark_node 0 4.05p
* Spark capacitances: C_shunt=4.05pF, C_mutual=1.98pF

35
profiles/default/ltspice/tesla_1v.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Lumped)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1.0
* MMC capacitor module
C_mmc vin p1 0.03u
* Lumped resonator module
* Primary inductor
L1 p1 0 10.395u Rser=0.080278
* Secondary inductor
L2 0 top 14.512m Rser=113.613436
* Topload capacitance
C_topload top 0 17.961147447025535p
* Secondary MMC capacitance
C_secondary_mmc top 0 0.001p
* Mutual coupling
K1 L1 L2 0.31795317018456865
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 363315.4315431543 363315.4315431543
.end

18
profiles/default/ltspice/tesla_1v_1.log
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Circuit: * Composite Tesla Coil Netlist
Date: Fri Nov 07 12:01:03 2025
Total elapsed time: 0.002 seconds.
tnom = 27
temp = 27
method = trap
totiter = 0
traniter = 0
tranpoints = 0
accept = 0
rejected = 0
matrix size = 6
fillins = 3
solver = Alternate

35
profiles/default/ltspice/tesla_1v_1.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Lumped)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1.0
* MMC capacitor module
C_mmc vin p1 0.03u
* Lumped resonator module
* Primary inductor
L1 p1 0 10.395u Rser=0.080278
* Secondary inductor
L2 0 top 14.512m Rser=113.613436
* Topload capacitance
C_topload top 0 17.961147447025535p
* Secondary MMC capacitance
C_secondary_mmc top 0 0.001p
* Mutual coupling
K1 L1 L2 0.31795317018456865
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 363315.4315431543 363315.4315431543
.end

BIN
profiles/default/ltspice/tesla_1v_1.raw
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194
profiles/default/ltspice/tesla_distributed.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 34.77175870061003
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 380411.4411441144 380411.4411441144
.end

35
profiles/default/ltspice/tesla_lumped.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Lumped)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 30.249503455150567
* MMC capacitor module
C_mmc vin p1 0.03u
* Lumped resonator module
* Primary inductor
L1 p1 0 10.395u Rser=0.080278
* Secondary inductor
L2 0 top 14.512m Rser=113.613436
* Topload capacitance
C_topload top 0 17.961147447025535p
* Secondary MMC capacitance
C_secondary_mmc top 0 0.001p
* Mutual coupling
K1 L1 L2 0.31795317018456865
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac lin 1 363315.4315431543 363315.4315431543
.end

36
profiles/default/ltspice/tesla_poles.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Lumped)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 15.209131970059365
* MMC capacitor module
C_mmc vin p1 0.03u
* Lumped resonator module
* Primary inductor
L1 p1 0 7.420u Rser=0.058757
* Secondary inductor
L2 0 top 13.751m Rser=109.769045
* Topload capacitance
C_topload top 0 17.846698280783237p
* Secondary MMC capacitance
C_secondary_mmc top 0 0.001p
* Mutual coupling
K1 L1 L2 0.21436634427979953
* No spark load - topload is open circuit
* This module intentionally contains no components
* Single-frequency AC analysis module
.ac dec 100 1k 10meg
.end

203
profiles/default/ltspice/tesla_spark_convergence.net
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* Composite Tesla Coil Netlist
* Generated by PyTesla - Modular Composition System
* Tesla Coil Base Resonator (Distributed)
* Generated by PyTesla - Modular Netlist System
* Voltage source module
V1 vin 0 AC 1
* MMC capacitor module
C_mmc vin p1 0.03u
* Distributed resonator module
* Primary inductor
L1 p1 0 1.039362027049663e-05 Rser=0.07684303963432565
* Secondary section inductors
L2 s0 s1 0.0005317883712898829 Rser=10.75073161138125
L3 s1 s2 0.0005527618581815833 Rser=11.31493449343926
L4 s2 s3 0.0005348909584537599 Rser=10.9872223583428
L5 s3 s4 0.0005534830920291543 Rser=11.11877629796648
L6 s4 s5 0.0005347403280831997 Rser=10.88516174786922
L7 s5 s6 0.0005519564995719794 Rser=11.08079729496604
L8 s6 s7 0.0005306185955490154 Rser=10.88276386463266
L9 s7 s8 0.0005439600834994453 Rser=11.12557186303114
L10 s8 s9 0.0005170839404594502 Rser=10.96027773638772
L11 s9 top 0.0005194542988473846 Rser=10.82464445391386
* Secondary ground connection
Rs0_gnd s0 0 1e-6
* Mutual inductance couplings
K1_2 L1 L2 0.42775885504631334
K1_3 L1 L3 0.36248700186881594
K1_4 L1 L4 0.26903272178113374
K1_5 L1 L5 0.19096301184542344
K1_6 L1 L6 0.1345642785719219
K1_7 L1 L7 0.09494392406291964
K1_8 L1 L8 0.06690839918524681
K1_9 L1 L9 0.046552965292432046
K1_10 L1 L10 0.03129872182785004
K1_11 L1 L11 0.019674930408270324
K2_3 L2 L3 0.5036332083285967
K2_4 L2 L4 0.25290803504146353
K2_5 L2 L5 0.14844959144066977
K2_6 L2 L6 0.0925237488687096
K2_7 L2 L7 0.05984764257464823
K2_8 L2 L8 0.03959923965954612
K2_9 L2 L9 0.026310467658904255
K2_10 L2 L10 0.017125935735942212
K2_11 L2 L11 0.010546519630541143
K3_4 L3 L4 0.503775905036356
K3_5 L3 L5 0.2519028831114112
K3_6 L3 L6 0.14669354958020311
K3_7 L3 L7 0.09055797505930747
K3_8 L3 L8 0.05780720282190652
K3_9 L3 L9 0.0373400401047979
K3_10 L3 L10 0.023797969508007118
K3_11 L3 L11 0.01445059874103959
K4_5 L4 L5 0.5045976918341424
K4_6 L4 L6 0.25188081998464706
K4_7 L4 L7 0.1458444588938986
K4_8 L4 L8 0.08916713290758298
K4_9 L4 L9 0.05574385907763506
K4_10 L4 L10 0.034672172953789056
K4_11 L4 L11 0.020712993987899355
K5_6 L5 L6 0.5041432905483981
K5_7 L5 L7 0.25076248791340444
K5_8 L5 L8 0.14433541000507455
K5_9 L5 L9 0.08676741771356491
K5_10 L5 L10 0.052489850864416356
K5_11 L5 L11 0.030787178318551784
K6_7 L6 L7 0.5026074461621589
K6_8 L6 L8 0.2485820211910561
K6_9 L6 L9 0.1410148971097289
K6_10 L6 L10 0.0823567552477634
K6_11 L6 L11 0.04725502124701621
K7_8 L7 L8 0.5011990477153279
K7_9 L7 L9 0.24493781000517914
K7_10 L7 L10 0.135467382585431
K7_11 L7 L11 0.07548856197430992
K8_9 L8 L9 0.4980604184984676
K8_10 L8 L10 0.2381639004254279
K8_11 L8 L11 0.12651697308306237
K9_10 L9 L10 0.4918271861958355
K9_11 L9 L11 0.22742146755311587
K10_11 L10 L11 0.4823456805445718
* Shunt capacitances
Cp_self p1 0 4.2420029187858095p
Cs0_self s1 0 0.2876954252206357p
Cs1_self s2 0 0.08464218018897707p
Cs2_self s3 0 0.1223605136333703p
Cs3_self s4 0 0.17201448479070042p
Cs4_self s5 0 0.20361472932489005p
Cs5_self s6 0 0.21815624492109098p
Cs6_self s7 0 0.20614990472248443p
Cs7_self s8 0 0.18237919708946382p
Cs8_self s9 0 0.1424842808372715p
Cs9_self top 0 0.1186098824184118p
Ctop_self top 0 9.851912474365328p
C_secondary_mmc top 0 0.001p
Csr_self sr 0 2.454205659870432p
* Mutual capacitances between sections
C0_mut s1 s2 14.53664042077779p
C1_mut s1 s3 0.36602443904698356p
C2_mut s1 s4 0.11706552158105961p
C3_mut s1 s5 0.04770660410841287p
C4_mut s1 s6 0.02117558928069594p
C5_mut s1 s7 0.010149351526542961p
C6_mut s1 s8 0.005139104672339598p
C7_mut s1 s9 0.0027079618466387526p
C8_mut s1 top 0.001764327895132014p
C9_mut s1 top 0.02439187048099836p
C10_mut s1 p1 4.77181258617105p
C11_mut s1 sr 0.07355620423486026p
C12_mut s2 s3 17.41255044238404p
C13_mut s2 s4 0.3962333358169554p
C14_mut s2 s5 0.1299869486148368p
C15_mut s2 s6 0.05424418104854272p
C16_mut s2 s7 0.02554855564324687p
C17_mut s2 s8 0.01290620585834485p
C18_mut s2 s9 0.006712029646608598p
C19_mut s2 top 0.004257514819058388p
C20_mut s2 top 0.037625015794043454p
C21_mut s2 p1 2.023249832032092p
C22_mut s2 sr 0.1986462359031741p
C23_mut s3 s4 16.804586808523762p
C24_mut s3 s5 0.4467397179946325p
C25_mut s3 s6 0.15462348123069491p
C26_mut s3 s7 0.0689228092161806p
C27_mut s3 s8 0.03429839253785214p
C28_mut s3 s9 0.01774747710609462p
C29_mut s3 top 0.01118429519790914p
C30_mut s3 top 0.09622533537351638p
C31_mut s3 p1 0.9651708581072315p
C32_mut s3 sr 0.36768201975559267p
C33_mut s4 s5 14.69328032708347p
C34_mut s4 s6 0.4654882512905022p
C35_mut s4 s7 0.16624478422442582p
C36_mut s4 s8 0.0757524029321262p
C37_mut s4 s9 0.03732775004739068p
C38_mut s4 top 0.02282569463149842p
C39_mut s4 top 0.1687499128450705p
C40_mut s4 p1 0.46046258594138645p
C41_mut s4 sr 0.3731185497143558p
C42_mut s5 s6 14.737897090969588p
C43_mut s5 s7 0.47043730036262227p
C44_mut s5 s8 0.17097856617218382p
C45_mut s5 s9 0.07636072979600324p
C46_mut s5 top 0.04424533392521686p
C47_mut s5 top 0.2505002175414068p
C48_mut s5 p1 0.2500610370366405p
C49_mut s5 sr 0.2978029420679597p
C50_mut s6 s7 17.24873945503479p
C51_mut s6 s8 0.47320982724972566p
C52_mut s6 s9 0.16907520309125798p
C53_mut s6 top 0.08896891569064673p
C54_mut s6 top 0.3527475465757508p
C55_mut s6 p1 0.1561641777292191p
C56_mut s6 sr 0.22189706396926268p
C57_mut s7 s8 17.24119995075542p
C58_mut s7 s9 0.4690434347781599p
C59_mut s7 top 0.19657888995166212p
C60_mut s7 top 0.48974980070865476p
C61_mut s7 p1 0.1044061088221108p
C62_mut s7 sr 0.1586909473558846p
C63_mut s8 s9 17.22944240620355p
C64_mut s8 top 0.5466064688231546p
C65_mut s8 top 0.7048370356783726p
C66_mut s8 p1 0.07158216558697406p
C67_mut s8 sr 0.1109000703427727p
C68_mut s9 top 15.311042498127538p
C69_mut s9 top 1.090251744635521p
C70_mut s9 p1 0.046864630133632366p
C71_mut s9 sr 0.07261500632452347p
C72_mut s10 top 3.177683456526757p
C73_mut s10 p1 0.03460075552894814p
C74_mut s10 sr 0.053322990401104275p
C75_mut top p1 0.7549395790620664p
C76_mut top sr 1.005987208303961p
C77_mut p1 sr 14.21502775807472p
* Strike ring ground connection
Rsr sr 0 1e-6
* Temporary Spark for Convergence
* Spark load module - dual capacitance
* Electromagnetic -> Circuit terminology mapping:
* Mutual capacitance (topload-spark coupling) -> C_mutual (circuit internal)
* Shunt capacitance (spark to ground) -> C_shunt (circuit external)
* Topology: [R_spark || C_mutual] in series with C_shunt
* top -> (Rspark || Cmutual) -> spark_node -> Cshunt -> ground
Rspark top spark_node 50.65956822210045k
Cmutual top spark_node 1.6444639279093751p
Cshunt spark_node 0 7.359511220416813p
* AC sweep analysis module
.ac dec 100 1000 10000000.0
.end

BIN
pyTesla.exe
View File

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