********** * Bourns Inc., * SPICE Models * SMAJxxxCA Family * 2019/10/28 ********** ********** * All rights reserved. Copyright © 2018 Bourns, Inc. * * These SPICE models model the nominal behavior within the limitations * of SPICE standard models. * * While the models strive to match actual device performance, not all * aspects of the performance of these models may correspond to actual * device behavior due to SPICE limitations. * * Simulations using these models should not be used to prove validity * of circuit design or any aspects of performance, due to inherent * inaccuracies of SPICE models. * * All simulations should be checked and correlated with actual bench * measurements of typical devices. * * These models may be updated or changed without notice. .SUBCKT SMAJ5.0CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.013meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0025 N=1.5 IBV=10m BV=6.7 CJO=1750p) .ENDS .SUBCKT SMAJ6.0CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.015meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0031 N=1.5 IBV=10m BV=7.02 CJO=1650p) .ENDS .SUBCKT SMAJ6.5CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.026meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0045 N=1.5 IBV=10m BV=7.6 CJO=1500p) .ENDS .SUBCKT SMAJ7.0CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.070meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0065 N=1.5 IBV=10m BV=8.19 CJO=1400p) .ENDS .SUBCKT SMAJ7.5CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.150meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0078 N=1.5 IBV=1m BV=8.77 CJO=1350p) .ENDS .SUBCKT SMAJ8.0CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.320meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0093 N=1.5 IBV=1m BV=9.36 CJO=1250p) .ENDS .SUBCKT SMAJ8.5CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 0.850meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0.0093 N=1.5 IBV=1m BV=9.92 CJO=1150p) .ENDS .SUBCKT SMAJ9.0CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 1.800meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0112 N=1.5 IBV=1m BV=10.55 CJO=1100p) .ENDS .SUBCKT SMAJ10CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 4meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0134 N=1.5 IBV=1m BV=11.7 CJO=1000p) .ENDS .SUBCKT SMAJ11CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 22meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0163 N=1.5 IBV=1m BV=12.85 CJO=920p) .ENDS .SUBCKT SMAJ12CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 24meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0197 N=1.5 IBV=1m BV=14 CJO=810p) .ENDS .SUBCKT SMAJ13CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 26meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0216 N=1.5 IBV=1m BV=15.15 CJO=770p) .ENDS .SUBCKT SMAJ14CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 28meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0249 N=1.5 IBV=1m BV=16.4 CJO=690p) .ENDS .SUBCKT SMAJ15CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 30meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0316 N=1.5 IBV=1m BV=17.6 CJO=650p) .ENDS .SUBCKT SMAJ16CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 32meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0365 N=1.5 IBV=1m BV=18.75 CJO=600p) .ENDS .SUBCKT SMAJ17CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 34meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0402 N=1.5 IBV=1m BV=19.9 CJO=550p) .ENDS .SUBCKT SMAJ18CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 36meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0179 N=1.5 IBV=1m BV=21.05 CJO=530p) .ENDS .SUBCKT SMAJ20CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 40meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0238 N=1.5 IBV=1m BV=23.35 CJO=480p) .ENDS .SUBCKT SMAJ22CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 44meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0274 N=1.5 IBV=1m BV=25.65 CJO=440p) .ENDS .SUBCKT SMAJ24CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 48meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0302 N=1.5 IBV=1m BV=28.1 CJO=400p) .ENDS .SUBCKT SMAJ26CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 52meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0348 N=1.5 IBV=1m BV=30.4 CJO=360p) .ENDS .SUBCKT SMAJ28CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 56meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0402 N=1.5 IBV=1m BV=32.75 CJO=340p) .ENDS .SUBCKT SMAJ30CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 60meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0442 N=1.5 IBV=1m BV=35.05 CJO=320p) .ENDS .SUBCKT SMAJ33CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 66meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0535 N=1.5 IBV=1m BV=38.65 CJO=290p) .ENDS .SUBCKT SMAJ36CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 72meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0647 N=1.5 IBV=1m BV=42.1 CJO=270p) .ENDS .SUBCKT SMAJ40CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 80meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0783 N=1.5 IBV=1m BV=46.75 CJO=240p) .ENDS .SUBCKT SMAJ43CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 86meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0993 N=1.5 IBV=1m BV=50.3 CJO=220p) .ENDS .SUBCKT SMAJ45CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 90meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1092 N=1.5 IBV=1m BV=52.65 CJO=210p) .ENDS .SUBCKT SMAJ48CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 96meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1201 N=1.5 IBV=1m BV=56.1 CJO=200p) .ENDS .SUBCKT SMAJ51CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 102meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1321 N=1.5 IBV=1m BV=59.7 CJO=190p) .ENDS .SUBCKT SMAJ54CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 108meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1453 N=1.5 IBV=1m BV=63.15 CJO=185p) .ENDS .SUBCKT SMAJ58CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 116meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1678 N=1.5 IBV=1m BV=67.8 CJO=175p) .ENDS .SUBCKT SMAJ60CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 120meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1934 N=1.5 IBV=1m BV=70.2 CJO=165p) .ENDS .SUBCKT SMAJ64CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 128meg .MODEL Dtvs D (IS=1.0e-5 RS=0.2128 N=1.5 IBV=1m BV=74.85 CJO=155p) .ENDS .SUBCKT SMAJ70CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 140meg .MODEL Dtvs D (IS=1.0e-5 RS=0.2703 N=1.5 IBV=1m BV=81.9 CJO=145p) .ENDS .SUBCKT SMAJ75CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 150meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3115 N=1.5 IBV=1m BV=87.7 CJO=135p) .ENDS .SUBCKT SMAJ78CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 156meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3426 N=1.5 IBV=1m BV=91.25 CJO=130p) .ENDS .SUBCKT SMAJ85CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 170meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3958 N=1.5 IBV=1m BV=99.2 CJO=120p) .ENDS .SUBCKT SMAJ90CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 180meg .MODEL Dtvs D (IS=1.0e-5 RS=0.4561 N=1.5 IBV=1m BV=105.5 CJO=110p) .ENDS .SUBCKT SMAJ100CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 200meg .MODEL Dtvs D (IS=1.0e-5 RS=0.5975 N=1.5 IBV=1m BV=117 CJO=100p) .ENDS .SUBCKT SMAJ110CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 220meg .MODEL Dtvs D (IS=1.0e-5 RS=0.7816 N=1.5 IBV=1m BV=128.5 CJO=90p) .ENDS .SUBCKT SMAJ120CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 240meg .MODEL Dtvs D (IS=1.0e-5 RS=0.9117 N=1.5 IBV=1m BV=140 CJO=85p) .ENDS .SUBCKT SMAJ130CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 2 3 Dtvs Rleak 1 2 260meg .MODEL Dtvs D (IS=1.0e-5 RS=0.9846 N=1.5 IBV=1m BV=151.5 CJO=80p) .ENDS .SUBCKT SMAJ150CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 300meg .MODEL Dtvs D (IS=1.0e-5 RS=0.6230 N=1.5 IBV=1m BV=176 CJO=65p) .ENDS .SUBCKT SMAJ160CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 320meg .MODEL Dtvs D (IS=1.0e-5 RS=0.6852 N=1.5 IBV=1m BV=187.5 CJO=60p) .ENDS .SUBCKT SMAJ170CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 340meg .MODEL Dtvs D (IS=1.0e-5 RS=0.7538 N=1.5 IBV=1m BV=199 CJO=55p) .ENDS .SUBCKT SMAJ180CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 360meg .MODEL Dtvs D (IS=1.0e-5 RS=0.9122 N=1.5 IBV=1m BV=211.5 CJO=52p) .ENDS .SUBCKT SMAJ200CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 400meg .MODEL Dtvs D (IS=1.0e-5 RS=1.195 N=1.5 IBV=1m BV=235.5 CJO=49p) .ENDS .SUBCKT SMAJ220CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 440meg .MODEL Dtvs D (IS=1.0e-5 RS=1.6258 N=1.5 IBV=1m BV=259 CJO=44p) .ENDS .SUBCKT SMAJ250CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 500meg .MODEL Dtvs D (IS=1.0e-5 RS=1.8962 N=1.5 IBV=1m BV=294 CJO=39p) .ENDS .SUBCKT SMAJ300CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 600meg .MODEL Dtvs D (IS=1.0e-5 RS=1.2410 N=1.5 IBV=1m BV=353 CJO=24p) .ENDS .SUBCKT SMAJ350CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 700meg .MODEL Dtvs D (IS=1.0e-5 RS=1.9692 N=1.5 IBV=1m BV=411.5 CJO=21p) .ENDS .SUBCKT SMAJ400CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 800meg .MODEL Dtvs D (IS=1.0e-5 RS=3.0092 N=1.5 IBV=1m BV=470.5 CJO=18p) .ENDS .SUBCKT SMAJ440CA 1 2 * TERMINALS: T1 T2 Done 1 3 Dtvs Dtwo 4 3 Dtvs Dthr 4 5 Dtvs Dfou 2 5 Dtvs Rleak 1 2 880meg .MODEL Dtvs D (IS=1.0e-5 RS=3.7906 N=1.5 IBV=1m BV=517.5 CJO=16p) .ENDS *IMPORTANT NOTICE: YOUR access to SPICE MODELS created by Bourns, Inc., a California corporation (“Bourns”), is conditioned on YOUR acceptance of and agreement to comply with the terms of this SPICE Model License Agreement (this “Agreement”). *YOU confirm your acceptance of and agreement to comply with this Agreement by downloading a SPICE MODEL from the Bourns website. *AGREEMENT *1. 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