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

**************************************************
* Manufacturer:           Wurth Elektronik
* Kinds:                  Off-Line Transformer
* Matchcode:              WE-UNIT
* 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 749118105		3  1  4  6
.param RxLkg=31788.83ohm
.param Leakage=150uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	2650uH	Rser=8350mohm
Lsec1	4	6	7.848uH	Rser=26mohm
K Lpri1    Lsec1        1
.param Cprm1=19.88pf
.param Rdmp1=593391.56ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	4	0	20meg
Rg19	6	0	20meg
.ends

.subckt 7491181012		3  1  4  6
.param RxLkg=26640.04ohm
.param Leakage=134uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	2666uH	Rser=8350mohm
Lsec1	4	6	42.727uH	Rser=148mohm
K Lpri1    Lsec1        1
.param Cprm1=22.59pf
.param Rdmp1=556657.55ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	4	0	20meg
Rg19	6	0	20meg
.ends

.subckt 7491181024		3  1  4  6
.param RxLkg=28569.08ohm
.param Leakage=145uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	2655uH	Rser=8350mohm
Lsec1	4	6	170.907uH	Rser=670mohm
K Lpri1    Lsec1        1
.param Cprm1=23pf
.param Rdmp1=551678.75ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	4	0	20meg
Rg19	6	0	20meg
.ends

.subckt 749118115		5  1  6  9
.param RxLkg=17392.9ohm
.param Leakage=87uh
Rlkg	5	5a	{RxLkg}
L_Lkg	5	5a	{Leakage}	Rser=0.01mohm
Lpri1	5a	1	2713uH	Rser=5500mohm
Lsec1	6	9	7.848uH	Rser=27mohm
K Lpri1    Lsec1        1
.param Cprm1=22.34pf
.param Rdmp1=559771.49ohm
Cpri1	5	1	{Cprm1}	Rser=10mohm
Rdmp1	5	1	{Rdmp1}
Rg3	5	0	20meg
Rg7	1	0	20meg
Rg11	6	0	20meg
Rg19	9	0	20meg
.ends

.subckt 7491181112		5  1  6  9
.param RxLkg=16009.14ohm
.param Leakage=83uh
Rlkg	5	5a	{RxLkg}
L_Lkg	5	5a	{Leakage}	Rser=0.01mohm
Lpri1	5a	1	2717uH	Rser=5500mohm
Lsec1	6	9	42.727uH	Rser=143mohm
K Lpri1    Lsec1        1
.param Cprm1=24pf
.param Rdmp1=540067.42ohm
Cpri1	5	1	{Cprm1}	Rser=10mohm
Rdmp1	5	1	{Rdmp1}
Rg3	5	0	20meg
Rg7	1	0	20meg
Rg11	6	0	20meg
Rg19	9	0	20meg
.ends

.subckt 7491181124		5  1  6  9
.param RxLkg=15788.78ohm
.param Leakage=81uh
Rlkg	5	5a	{RxLkg}
L_Lkg	5	5a	{Leakage}	Rser=0.01mohm
Lpri1	5a	1	2719uH	Rser=5500mohm
Lsec1	6	9	170.907uH	Rser=636mohm
K Lpri1    Lsec1        1
.param Cprm1=23.5pf
.param Rdmp1=545785.12ohm
Cpri1	5	1	{Cprm1}	Rser=10mohm
Rdmp1	5	1	{Rdmp1}
Rg3	5	0	20meg
Rg7	1	0	20meg
Rg11	6	0	20meg
Rg19	9	0	20meg
.ends

.subckt 749118205		8  9  3  4  5  6
.param RxLkg=45184.55ohm
.param Leakage=105uh
Rlkg	8	8a	{RxLkg}
L_Lkg	8	8a	{Leakage}	Rser=0.01mohm
Lpri1	8a	9	795uH	Rser=3000mohm
Lsec1	3	4	2.493uH	Rser=21mohm
Lsec2	5	6	2.493uH	Rser=22mohm
K Lpri1    Lsec1 Lsec2       1
.param Cprm1=15pf
.param Rdmp1=387296.17ohm
Cpri1	8	9	{Cprm1}	Rser=10mohm
Rdmp1	8	9	{Rdmp1}
Rg3	8	0	20meg
Rg7	9	0	20meg
Rg11	3	0	20meg
Rg12	5	0	20meg
Rg19	4	0	20meg
Rg20	6	0	20meg
.ends

.subckt 7491182012		8  9  3  4  5  6
.param RxLkg=29376.66ohm
.param Leakage=80uh
Rlkg	8	8a	{RxLkg}
L_Lkg	8	8a	{Leakage}	Rser=0.01mohm
Lpri1	8a	9	820uH	Rser=3000mohm
Lsec1	3	4	9.972uH	Rser=63mohm
Lsec2	5	6	9.972uH	Rser=70mohm
K Lpri1    Lsec1 Lsec2       1
.param Cprm1=20.6pf
.param Rdmp1=330487.38ohm
Cpri1	8	9	{Cprm1}	Rser=10mohm
Rdmp1	8	9	{Rdmp1}
Rg3	8	0	20meg
Rg7	9	0	20meg
Rg11	3	0	20meg
Rg12	5	0	20meg
Rg19	4	0	20meg
Rg20	6	0	20meg
.ends

.subckt 7491182024		8  9  3  4
.param RxLkg=28235.13ohm
.param Leakage=80uh
Rlkg	8	8a	{RxLkg}
L_Lkg	8	8a	{Leakage}	Rser=0.01mohm
Lpri1	8a	9	820uH	Rser=3000mohm
Lsec1	3	4	46.814uH	Rser=180mohm
K Lpri1    Lsec1        1
.param Cprm1=22.3pf
.param Rdmp1=317645.18ohm
Cpri1	8	9	{Cprm1}	Rser=10mohm
Rdmp1	8	9	{Rdmp1}
Rg3	8	0	20meg
Rg7	9	0	20meg
Rg11	3	0	20meg
Rg19	4	0	20meg
.ends

.subckt 749118215		3  1  6  7  8  9
.param RxLkg=20860.31ohm
.param Leakage=57uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	843uH	Rser=3000mohm
Lsec1	6	7	2.493uH	Rser=24mohm
Lsec2	8	9	2.493uH	Rser=25.4mohm
K Lpri1    Lsec1 Lsec2       1
.param Cprm1=20.74pf
.param Rdmp1=329373.37ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	6	0	20meg
Rg12	8	0	20meg
Rg19	7	0	20meg
Rg20	9	0	20meg
.ends

.subckt 7491182112		3  1  6  7  8  9
.param RxLkg=18990.39ohm
.param Leakage=55uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	845uH	Rser=3000mohm
Lsec1	6	7	9.972uH	Rser=80mohm
Lsec2	8	9	9.972uH	Rser=87mohm
K Lpri1    Lsec1 Lsec2       1
.param Cprm1=23.3pf
.param Rdmp1=310751.89ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	6	0	20meg
Rg12	8	0	20meg
Rg19	7	0	20meg
Rg20	9	0	20meg
.ends

.subckt 7491182124		3  1  7  8
.param RxLkg=17545.17ohm
.param Leakage=52uh
Rlkg	3	3a	{RxLkg}
L_Lkg	3	3a	{Leakage}	Rser=0.01mohm
Lpri1	3a	1	848uH	Rser=3000mohm
Lsec1	7	8	46.814uH	Rser=127mohm
K Lpri1    Lsec1        1
.param Cprm1=24.4pf
.param Rdmp1=303666.35ohm
Cpri1	3	1	{Cprm1}	Rser=10mohm
Rdmp1	3	1	{Rdmp1}
Rg3	3	0	20meg
Rg7	1	0	20meg
Rg11	7	0	20meg
Rg19	8	0	20meg
.ends