pyTesla-releases/profiles/default/ltspice/tesla.net

* 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