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

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* Manufacturer:           Wurth Elektronik
* Kinds:                  Resonant Converter
* Matchcode:              WE-LLCR
* Library Type:           LTspice
* Version:                rev22a
* Created/modified by:    Toby
* Date and Time:          2022-05-17
* 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 760895751		12  10  15  14  1  5  3  7
.param RxLkg=20624.15ohm
.param Leakage=65uh
Rlkg	12	12a	{RxLkg}
L_Lkg	12	12a	{Leakage}	Rser=0.01mohm
Lpri1	12a	10	335uH	Rser=64mohm
Laux1	15	14	2.195uH	Rser=122mohm
Lsec1	1	5	19.753uH	Rser=9.9mohm
Lsec2	3	7	19.753uH	Rser=8.9mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=62.08pf
.param Rdmp1=126917.83ohm
Cpri1	12	10	{Cprm1}	Rser=10mohm
Rdmp1	12	10	{Rdmp1}
Rg3	12	0	20meg
Rg5	15	0	20meg
Rg7	10	0	20meg
Rg9	14	0	20meg
Rg11	1	0	20meg
Rg12	3	0	20meg
Rg19	5	0	20meg
Rg20	7	0	20meg
.ends

.subckt 760895741		12  10  15  14  1  5  3  7
.param RxLkg=23797.06ohm
.param Leakage=65uh
Rlkg	12	12a	{RxLkg}
L_Lkg	12	12a	{Leakage}	Rser=0.01mohm
Lpri1	12a	10	335uH	Rser=62.8mohm
Laux1	15	14	2.195uH	Rser=124mohm
Lsec1	1	5	4.938uH	Rser=3.6mohm
Lsec2	3	7	4.938uH	Rser=4mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=46.63pf
.param Rdmp1=146443.46ohm
Cpri1	12	10	{Cprm1}	Rser=10mohm
Rdmp1	12	10	{Rdmp1}
Rg3	12	0	20meg
Rg5	15	0	20meg
Rg7	10	0	20meg
Rg9	14	0	20meg
Rg11	1	0	20meg
Rg12	3	0	20meg
Rg19	5	0	20meg
Rg20	7	0	20meg
.ends

.subckt 760895731		12  10  15  14  1  5  3  7
.param RxLkg=30336.48ohm
.param Leakage=100uh
Rlkg	12	12a	{RxLkg}
L_Lkg	12	12a	{Leakage}	Rser=0.01mohm
Lpri1	12a	10	375uH	Rser=106mohm
Laux1	15	14	3.49uH	Rser=150mohm
Lsec1	1	5	1.551uH	Rser=2.7mohm
Lsec2	3	7	1.551uH	Rser=2.9mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=57.19pf
.param Rdmp1=144098.26ohm
Cpri1	12	10	{Cprm1}	Rser=10mohm
Rdmp1	12	10	{Rdmp1}
Rg3	12	0	20meg
Rg5	15	0	20meg
Rg7	10	0	20meg
Rg9	14	0	20meg
Rg11	1	0	20meg
Rg12	3	0	20meg
Rg19	5	0	20meg
Rg20	7	0	20meg
.ends

.subckt 760895651		4  2  5  6  8  12  10  14
.param RxLkg=29204.06ohm
.param Leakage=95uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	405uH	Rser=121mohm
Laux1	5	6	3.673uH	Rser=139mohm
Lsec1	8	12	26.122uH	Rser=17.9mohm
Lsec2	10	14	26.122uH	Rser=17.9mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=52.91pf
.param Rdmp1=153705.56ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	10	0	20meg
Rg19	12	0	20meg
Rg20	14	0	20meg
.ends

.subckt 760895641		4  2  5  6  8  12  10  14
.param RxLkg=26605.14ohm
.param Leakage=95uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	405uH	Rser=120mohm
Laux1	5	6	3.673uH	Rser=137mohm
Lsec1	8	12	6.531uH	Rser=6.4mohm
Lsec2	10	14	6.531uH	Rser=6.3mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=63.75pf
.param Rdmp1=140027.07ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	10	0	20meg
Rg19	12	0	20meg
Rg20	14	0	20meg
.ends

.subckt 760895631		4  2  5  6  8  11  10  13
.param RxLkg=30080.91ohm
.param Leakage=95uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	405uH	Rser=123mohm
Laux1	5	6	3.673uH	Rser=128mohm
Lsec1	8	11	1.633uH	Rser=2.2mohm
Lsec2	10	13	1.633uH	Rser=2mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=49.87pf
.param Rdmp1=158320.56ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	10	0	20meg
Rg19	11	0	20meg
Rg20	13	0	20meg
.ends

.subckt 760895451		4  2  5  6  8  10  9  11
.param RxLkg=29850.79ohm
.param Leakage=100uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	500uH	Rser=228.5mohm
Laux1	5	6	4.408uH	Rser=128mohm
Lsec1	8	10	31.347uH	Rser=22.8mohm
Lsec2	9	11	31.347uH	Rser=22.9mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=46.76pf
.param Rdmp1=179104.71ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	9	0	20meg
Rg19	10	0	20meg
Rg20	11	0	20meg
.ends

.subckt 760895441		4  2  5  6  8  10  9  11
.param RxLkg=32592.14ohm
.param Leakage=100uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	500uH	Rser=237mohm
Laux1	5	6	4.408uH	Rser=121.7mohm
Lsec1	8	10	7.837uH	Rser=7.4mohm
Lsec2	9	11	7.837uH	Rser=7.4mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=39.225pf
.param Rdmp1=195552.83ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	9	0	20meg
Rg19	10	0	20meg
Rg20	11	0	20meg
.ends

.subckt 760895431		4  2  5  6  8  10  9  11
.param RxLkg=31739.51ohm
.param Leakage=100uh
Rlkg	4	4a	{RxLkg}
L_Lkg	4	4a	{Leakage}	Rser=0.01mohm
Lpri1	4a	2	500uH	Rser=229mohm
Laux1	5	6	4.408uH	Rser=121.7mohm
Lsec1	8	10	1.959uH	Rser=2.88mohm
Lsec2	9	11	1.959uH	Rser=2.3mohm
K Lpri1  Laux1  Lsec1 Lsec2       1
.param Cprm1=41.36pf
.param Rdmp1=190437.06ohm
Cpri1	4	2	{Cprm1}	Rser=10mohm
Rdmp1	4	2	{Rdmp1}
Rg3	4	0	20meg
Rg5	5	0	20meg
Rg7	2	0	20meg
Rg9	6	0	20meg
Rg11	8	0	20meg
Rg12	9	0	20meg
Rg19	10	0	20meg
Rg20	11	0	20meg
.ends