************************************************** * Manufacturer: Wurth Elektronik * Kinds: Power over Ethernet Plus Transformer * Matchcode: WE-PoE+ * 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 750310744 5 3 2 1 6 9 .param RxLkg=2294.16ohm .param Leakage=0.6uh Rlkg 5 5a {RxLkg} L_Lkg 5 5a {Leakage} Rser=0.01mohm Lpri1 5a 3 37.4uH Rser=90mohm Laux1 2 1 38uH Rser=200mohm Lsec1 6 9 6.08uH Rser=3mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=4.5pf .param Rdmp1=145296.6ohm Cpri1 5 3 {Cprm1} Rser=10mohm Rdmp1 5 3 {Rdmp1} Rg3 5 0 20meg Rg5 2 0 20meg Rg7 3 0 20meg Rg9 1 0 20meg Rg11 6 0 20meg Rg19 9 0 20meg .ends .subckt 750310743 5 3 2 1 6 9 .param RxLkg=2019.71ohm .param Leakage=0.625uh Rlkg 5 5a {RxLkg} L_Lkg 5 5a {Leakage} Rser=0.01mohm Lpri1 5a 3 37.375uH Rser=82mohm Laux1 2 1 13.68uH Rser=160mohm Lsec1 6 9 0.855uH Rser=2mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=6.3pf .param Rdmp1=122798.15ohm Cpri1 5 3 {Cprm1} Rser=10mohm Rdmp1 5 3 {Rdmp1} Rg3 5 0 20meg Rg5 2 0 20meg Rg7 3 0 20meg Rg9 1 0 20meg Rg11 6 0 20meg Rg19 9 0 20meg .ends .subckt 750310742 5 3 2 1 6 10 .param RxLkg=1908.49ohm .param Leakage=0.47uh Rlkg 5 5a {RxLkg} L_Lkg 5 5a {Leakage} Rser=0.01mohm Lpri1 5a 3 37.53uH Rser=85mohm Laux1 2 1 11.495uH Rser=155mohm Lsec1 6 10 9.5uH Rser=25mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=3.99pf .param Rdmp1=154303.38ohm Cpri1 5 3 {Cprm1} Rser=10mohm Rdmp1 5 3 {Rdmp1} Rg3 5 0 20meg Rg5 2 0 20meg Rg7 3 0 20meg Rg9 1 0 20meg Rg11 6 0 20meg Rg19 10 0 20meg .ends .subckt 750310927 3 1 5 6 7 8 .param RxLkg=527.41ohm .param Leakage=0.9uh Rlkg 3 3a {RxLkg} L_Lkg 3 3a {Leakage} Rser=0.01mohm Lpri1 3a 1 111.1uH Rser=100mohm Laux1 5 6 3.111uH Rser=60mohm Lsec1 7 8 12.444uH Rser=50mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=65pf .param Rdmp1=65632.85ohm Cpri1 3 1 {Cprm1} Rser=10mohm Rdmp1 3 1 {Rdmp1} Rg3 3 0 20meg Rg5 5 0 20meg Rg7 1 0 20meg Rg9 6 0 20meg Rg11 7 0 20meg Rg19 8 0 20meg .ends .subckt 7491194912 1 3 5 6 10 7 .param RxLkg=515.95ohm .param Leakage=0.5uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 41.5uH Rser=60mohm Laux1 5 6 4.667uH Rser=180mohm Lsec1 10 7 4.667uH Rser=18mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=55.9pf .param Rdmp1=43340.07ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 10 0 20meg Rg19 7 0 20meg .ends .subckt 750310926 1 3 5 6 7 8 11 12 .param RxLkg=570.54ohm .param Leakage=0.5uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 39.5uH Rser=40mohm Laux1 5 6 2.5uH Rser=200mohm Lsec1 7 8 1.6uH Rser=9mohm Lsec2 11 12 2.5uH Rser=200mohm K Lpri1 Laux1 Lsec1 Lsec2 1 .param Cprm1=48pf .param Rdmp1=45643.57ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 7 0 20meg Rg12 11 0 20meg Rg19 8 0 20meg Rg20 12 0 20meg .ends .subckt 749119450 1 3 5 6 10 7 .param RxLkg=625.59ohm .param Leakage=0.8uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 64.3uH Rser=100mohm Laux1 5 6 11.957uH Rser=200mohm Lsec1 10 7 1.329uH Rser=3mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=62.8pf .param Rdmp1=50907.31ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 10 0 20meg Rg19 7 0 20meg .ends .subckt 7491194501 1 3 5 6 10 7 .param RxLkg=765.56ohm .param Leakage=0.8uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 41.2uH Rser=90mohm Laux1 5 6 4.339uH Rser=170mohm Lsec1 10 7 0.857uH Rser=5mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=65pf .param Rdmp1=40191.81ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 10 0 20meg Rg19 7 0 20meg .ends .subckt 749119433 1 3 5 6 10 7 .param RxLkg=3401.55ohm .param Leakage=3uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 39uH Rser=99mohm Laux1 5 6 3.857uH Rser=220mohm Lsec1 10 7 0.347uH Rser=3.2mohm K Lpri1 Laux1 Lsec1 1 .param Cprm1=46.3pf .param Rdmp1=47621.74ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 10 0 20meg Rg19 7 0 20meg .ends .subckt 750310925 1 3 5 6 7 8 11 12 .param RxLkg=1049.42ohm .param Leakage=1.2uh Rlkg 1 1a {RxLkg} L_Lkg 1 1a {Leakage} Rser=0.01mohm Lpri1 1a 3 55.8uH Rser=60mohm Laux1 5 6 3.563uH Rser=350mohm Lsec1 7 8 0.891uH Rser=8mohm Lsec2 11 12 3.563uH Rser=350mohm K Lpri1 Laux1 Lsec1 Lsec2 1 .param Cprm1=57.35pf .param Rdmp1=49847.22ohm Cpri1 1 3 {Cprm1} Rser=10mohm Rdmp1 1 3 {Rdmp1} Rg3 1 0 20meg Rg5 5 0 20meg Rg7 3 0 20meg Rg9 6 0 20meg Rg11 7 0 20meg Rg12 11 0 20meg Rg19 8 0 20meg Rg20 12 0 20meg .ends