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Altium-Component-Library-Wurth
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Altium-Component-Library-Wurth/Simulations/WE-AGDT.ckt

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**************************************************
* Manufacturer: Wurth Elektronik
* Kinds: Auxiliary Gate Drive Transformer
* Matchcode: WE-AGDT
* Library Type: LTspice
* Version: rev22b
* Created/modified by: Toby
* Date and Time: 2022-06-29
* Team: eiSos EDA Service
* Contact: libraries@we-online.com
**************************************************
* Copyright(C) 2022 Würth Elektronik eiSos GmbH & Co. KG
* All Rights Reserved.
**************************************************
* Disclaimer: While Würth Elektronik eiSos has made every reasonable effort to ensure the accuracy
* of the simulation models provided, Würth Elektronik eiSos does not guarantee the exemption of error on
* the simulation models, nor does Würth Elektronik eiSos guarantee that the simulation model is current.
* Würth Elektronik eiSos reserves the right to make any adjustments at any time without notice.
* Würth Elektronik eiSos expressly disclaims all implied warranties regarding this simulation model.
**************************************************
.subckt 750317893 1 3 2 4 8 5
.param RxLkg=875.14ohm
.param Leakage=0.328uh
Rlkg 1 1a {RxLkg*2}
L_Lkg 1 1a {Leakage*2} Rser=0.01mohm
Rlkg2 2 2a {RxLkg*2}
L_Lkg2 2 2a {Leakage*2} Rser=0.01mohm
Lpri1 1a 3 17.672uH Rser=166mohm
Lpri2 2a 4 17.672uH Rser=166mohm
Lsec1 8 5 72uH Rser=395mohm
K Lpri1 Lpri2 Lsec1 1
.param Cprm1=9.755pf
.param Cprm2=9.755pf
.param Rdmp1=48026.1ohm
.param Rdmp2=48026.1ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Cpri2 2 4 {Cprm2} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rdmp2 2 4 {Rdmp2}
Rg3 1 0 20meg
Rg4 2 0 20meg
Rg7 3 0 20meg
Rg8 4 0 20meg
Rg11 8 0 20meg
Rg19 5 0 20meg
.ends
.subckt 750317894 1 4 8 5 7 6
.param RxLkg=1097.35ohm
.param Leakage=0.255uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 4 17.745uH Rser=85mohm
Lsec1 8 5 43.556uH Rser=260mohm
Lsec2 7 6 3.556uH Rser=85mohm
K Lpri1 Lsec1 Lsec2 1
.param Cprm1=7.5pf
.param Rdmp1=77459.69ohm
Cpri1 1 4 {Cprm1} Rser=10mohm
Rdmp1 1 4 {Rdmp1}
Rg3 1 0 20meg
Rg7 4 0 20meg
Rg11 8 0 20meg
Rg12 7 0 20meg
Rg19 5 0 20meg
Rg20 6 0 20meg
.ends
.subckt 750318114 1 3 2 4 8 6
.param RxLkg=1249.42ohm
.param Leakage=0.285uh
Rlkg 1 1a {RxLkg*2}
L_Lkg 1 1a {Leakage*2} Rser=0.01mohm
Rlkg2 2 2a {RxLkg*2}
L_Lkg2 2 2a {Leakage*2} Rser=0.01mohm
Lpri1 1a 3 5.715uH Rser=120mohm
Lpri2 2a 4 5.715uH Rser=120mohm
Lsec1 8 6 24uH Rser=285mohm
K Lpri1 Lpri2 Lsec1 1
.param Cprm1=10.84pf
.param Cprm2=10.84pf
.param Rdmp1=26303.65ohm
.param Rdmp2=26303.65ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Cpri2 2 4 {Cprm2} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rdmp2 2 4 {Rdmp2}
Rg3 1 0 20meg
Rg4 2 0 20meg
Rg7 3 0 20meg
Rg8 4 0 20meg
Rg11 8 0 20meg
Rg19 6 0 20meg
.ends
.subckt 750318131 1 3 2 4 8 6 7 5
.param RxLkg=1517.91ohm
.param Leakage=0.27uh
Rlkg 1 1a {RxLkg*2}
L_Lkg 1 1a {Leakage*2} Rser=0.01mohm
Rlkg2 2 2a {RxLkg*2}
L_Lkg2 2 2a {Leakage*2} Rser=0.01mohm
Lpri1 1a 3 6.73uH Rser=94mohm
Lpri2 2a 4 6.73uH Rser=94mohm
Lsec1 8 6 16.938uH Rser=205mohm
Lsec2 7 5 1.383uH Rser=71mohm
K Lpri1 Lpri2 Lsec1 Lsec2 1
.param Cprm1=5.65pf
.param Cprm2=5.65pf
.param Rdmp1=39353.16ohm
.param Rdmp2=39353.16ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Cpri2 2 4 {Cprm2} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rdmp2 2 4 {Rdmp2}
Rg3 1 0 20meg
Rg4 2 0 20meg
Rg7 3 0 20meg
Rg8 4 0 20meg
Rg11 8 0 20meg
Rg12 7 0 20meg
Rg19 6 0 20meg
Rg20 5 0 20meg
.ends
.subckt 750318207 1 4 8 5
.param RxLkg=1822.36ohm
.param Leakage=0.539uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 4 26.461uH Rser=240mohm
Lsec1 8 5 38.88uH Rser=353mohm
K Lpri1 Lsec1 1
.param Cprm1=8.1pf
.param Rdmp1=91287.02ohm
Cpri1 1 4 {Cprm1} Rser=10mohm
Rdmp1 1 4 {Rdmp1}
Rg3 1 0 20meg
Rg7 4 0 20meg
Rg11 8 0 20meg
Rg19 5 0 20meg
.ends
.subckt 750318208 1 4 8 5 7 6
.param RxLkg=1748.22ohm
.param Leakage=0.325uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 4 26.675uH Rser=155mohm
Lsec1 8 5 27uH Rser=250mohm
Lsec2 7 6 2.204uH Rser=85mohm
K Lpri1 Lsec1 Lsec2 1
.param Cprm1=3.2pf
.param Rdmp1=145236.83ohm
Cpri1 1 4 {Cprm1} Rser=10mohm
Rdmp1 1 4 {Rdmp1}
Rg3 1 0 20meg
Rg7 4 0 20meg
Rg11 8 0 20meg
Rg12 7 0 20meg
Rg19 5 0 20meg
Rg20 6 0 20meg
.ends
.subckt 750318616 1 3 2 4 8 5
.param RxLkg=585.54ohm
.param Leakage=0.12uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 9.88uH Rser=50mohm
Laux1 2 4 6.944uH Rser=104mohm
Lsec1 8 5 27.778uH Rser=260mohm
K Lpri1 Laux1 Lsec1 1
.param Cprm1=10.5pf
.param Rdmp1=48795.03ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg5 2 0 20meg
Rg7 3 0 20meg
Rg9 4 0 20meg
Rg11 8 0 20meg
Rg19 5 0 20meg
.ends
.subckt 750319077 2 1 4 3 5 6 7 8
.param RxLkg=568.63ohm
.param Leakage=0.39uh
Rlkg 2 2a {RxLkg}
L_Lkg 2 2a {Leakage} Rser=0.01mohm
Lpri1 2a 1 41.61uH Rser=195mohm
Laux1 4 3 10.5uH Rser=132mohm
Lsec1 5 6 85.714uH Rser=1300mohm
Lsec2 7 6 21.429uH Rser=700mohm
Lsec3 6 8 21.429uH Rser=700mohm
K Lpri1 Laux1 Lsec1 Lsec2 Lsec3 1
.param Cprm1=28pf
.param Rdmp1=61237.34ohm
Cpri1 2 1 {Cprm1} Rser=10mohm
Rdmp1 2 1 {Rdmp1}
Rg3 2 0 20meg
Rg5 4 0 20meg
Rg7 1 0 20meg
Rg9 3 0 20meg
Rg11 5 0 20meg
Rg12 7 0 20meg
Rg19 6 0 20meg
Rg21 8 0 20meg
.ends
.subckt 750319177 1 3 8 6
.param RxLkg=1513.83ohm
.param Leakage=0.55uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 29.45uH Rser=45mohm
Lsec1 8 6 83.333uH Rser=115mohm
K Lpri1 Lsec1 1
.param Cprm1=11pf
.param Rdmp1=82572.36ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg7 3 0 20meg
Rg11 8 0 20meg
Rg19 6 0 20meg
.ends
.subckt 750319282 2 1 4 3 5 6 7 8
.param RxLkg=586.95ohm
.param Leakage=0.65uh
Rlkg 2 2a {RxLkg}
L_Lkg 2 2a {Leakage} Rser=0.01mohm
Lpri1 2a 1 41.35uH Rser=215mohm
Laux1 4 3 17.357uH Rser=196mohm
Lsec1 5 6 262.5uH Rser=2400mohm
Lsec2 6 8 17.357uH Rser=660mohm
Lsec3 7 6 17.357uH Rser=660mohm
K Lpri1 Laux1 Lsec1 Lsec2 Lsec3 1
.param Cprm1=73pf
.param Rdmp1=37925.76ohm
Cpri1 2 1 {Cprm1} Rser=10mohm
Rdmp1 2 1 {Rdmp1}
Rg3 2 0 20meg
Rg5 4 0 20meg
Rg7 1 0 20meg
Rg9 3 0 20meg
Rg11 5 0 20meg
Rg13 7 0 20meg
Rg19 6 0 20meg
Rg20 8 0 20meg
.ends
.subckt 750319331 1 3 8 6
.param RxLkg=2970.44ohm
.param Leakage=1.5uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 73.5uH Rser=85mohm
Lsec1 8 6 75uH Rser=85mohm
K Lpri1 Lsec1 1
.param Cprm1=8.5pf
.param Rdmp1=148522.25ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg7 3 0 20meg
Rg11 8 0 20meg
Rg19 6 0 20meg
.ends
.subckt 750319496 1 3 8 6 7 5
.param RxLkg=1192.28ohm
.param Leakage=0.275uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 6.725uH Rser=42mohm
Lsec1 8 6 28uH Rser=370mohm
Lsec2 7 5 2.16uH Rser=115mohm
K Lpri1 Lsec1 Lsec2 1
.param Cprm1=19pf
.param Rdmp1=30348.84ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg7 3 0 20meg
Rg11 8 0 20meg
Rg12 7 0 20meg
Rg19 6 0 20meg
Rg20 5 0 20meg
.ends
.subckt 750319497 1 3 8 6 7 5
.param RxLkg=1122.95ohm
.param Leakage=0.245uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 6.755uH Rser=42mohm
Lsec1 8 6 24.975uH Rser=350mohm
Lsec2 7 5 1.383uH Rser=95mohm
K Lpri1 Lsec1 Lsec2 1
.param Cprm1=17pf
.param Rdmp1=32084.43ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg7 3 0 20meg
Rg11 8 0 20meg
Rg12 7 0 20meg
Rg19 6 0 20meg
Rg20 5 0 20meg
.ends
.subckt 750319565 1 3 8 6
.param RxLkg=1562.5ohm
.param Leakage=2.5uh
Rlkg 1 1a {RxLkg}
L_Lkg 1 1a {Leakage} Rser=0.01mohm
Lpri1 1a 3 253.5uH Rser=275mohm
Lsec1 8 6 1024uH Rser=345mohm
K Lpri1 Lsec1 1
.param Cprm1=25pf
.param Rdmp1=160000.26ohm
Cpri1 1 3 {Cprm1} Rser=10mohm
Rdmp1 1 3 {Rdmp1}
Rg3 1 0 20meg
Rg7 3 0 20meg
Rg11 8 0 20meg
Rg19 6 0 20meg
.ends
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