* Product Name: FQA36P15 150V P-Channel MOSFET and TO-3P *--------------------------------------------------------------------------------- .SUBCKT FQA36P15 20 10 30 Rg 10 1 0.04 M1 2 1 3 3 DMOS L=1u W=1u .MODEL DMOS PMOS(VTO={-3.6*{-0.00088*TEMP+1.022}} KP={19.5*{-0.00028*TEMP+1.007}} + THETA=0.0424 VMAX=1.5E5 LEVEL=3) Cgs 1 3 2440p Rd 20 4 0.06 TC=0.0085 Dds 4 3 DDS .MODEL DDS D(BV={150*{0.00075*TEMP+0.98125}} M=0.48 CJO=600p VJ=0.61) Dbody 20 3 DBODY .MODEL DBODY D(IS=8.5E-12 N=1.0 RS=0.013 EG=1.19 TT=198n) Ra 4 2 0.0152 TC=0.0085 Rs 3 5 0.0012 Ls 5 30 1n M2 1 8 6 6 INTER E2 8 6 4 1 2 .MODEL INTER PMOS (VTO=0 KP=10 LEVEL=1) Cgdmax 7 4 3300p Rcgd 7 4 1E7 Dgd 4 6 DGD Rdgd 4 6 1E7 .MODEL DGD D(M=0.62 CJO=3300p VJ=0.52) M3 7 9 1 1 INTER E3 9 1 4 1 -2 .ENDS *$ .model Q2SC1844 NPN(Is=6.506f Xti=3 Eg=1.11 Vaf=100 Bf=412.8 Ise=6.506f + Ne=1.511 Ikf=.7 Nk=.5878 Xtb=1.5 Var=100 Br=10.16 Isc=6.506f + Nc=1.612 Ikr=.7314 Rc=1.075 Cjc=10.06p Mjc=.3516 Vjc=1.286 + Fc=.5 Cje=5p Mje=.3333 Vje=.75 Tr=10n Tf=1n Itf=1 Xtf=0 Vtf=10) *$ * .SUBCKT BC327 1 2 3 * * housing parasitics LB 2 22 1.2E-009 LE 1 33 2.3E-009 LC 3 11 1.7E-009 CBCG 22 11 3.53E-013 CBEG 22 33 1.81E-013 CCEG 11 33 2.37E-013 * Q1 11 22 33 BC327 * .MODEL BC327 PNP + IS=1.08E-13 + NF=0.99 + ISE=2.713E-14 + NE=1.4 + BF=385.7 + IKF=0.3603 + VAF=31.29 + NR=0.9849 + ISC=5.062E-13 + NC=1.295 + BR=20.57 + IKR=0.054 + VAR=11.62 + RB=1 + IRB=1E-06 + RBM=0.5 + RE=0.1415 + RC=0.2623 + XTB=0 + EG=1.11 + XTI=3 + CJE=5.114E-11 + VJE=0.8911 + MJE=0.4417 + TF=7.359E-10 + XTF=1.859 + VTF=3.813 + ITF=0.4393 + PTF=0 + CJC=2.656E-11 + VJC=0.62 + MJC=0.4836 + XCJC=0.459 + TR=5.00E-08 + CJS=0 + VJS=0.75 + MJS=0.333 + FC=0.99 .ENDS * .SUBCKT irfp450 1 2 3 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on May 9, 97 * MODEL FORMAT: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=3.94179 LAMBDA=0.0307503 KP=16.5085 +CGSO=2.39257e-05 CGDO=1e-11 RS 8 3 0.0455396 D1 3 1 MD .MODEL MD D IS=2.41146e-08 RS=0.0112778 N=1.5 BV=500 +IBV=0.00025 EG=1 XTI=1.00001 TT=1e-07 +CJO=2.3701e-09 VJ=3.618 M=0.9 FC=0.1 RDS 3 1 2e+07 RD 9 1 0.246212 RG 2 7 2.73829 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=4.70723e-09 VJ=1.38588 M=0.9 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=1 RS=2.99997e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 4.70723e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=1 .ENDS irfp450 .model BC546A NPN(IS=1.533E-14 NF=1.002 ISE=7.932E-16 NE=1.436 BF=178.7 IKF=0.1216 VAF=69.7 NR=1.004 ISC=8.305E-14 NC=1.207 BR=8.628 IKR=0.1121 VAR=44.7 RB=1 IRB=1E-06 RBM=1 RE=0.6395 RC=0.6508 XTB=0 EG=1.11 XTI=3 CJE=1.61E-11 VJE=0.4209 MJE=0.3071 TF=4.995E-10 XTF=139 VTF=3.523 ITF=0.7021 PTF=0 CJC=4.388E-12 VJC=0.2 MJC=0.2793 XCJC=0.6193 TR=1E-32 CJS=0 VJS=0.75 MJS=0.333 FC=0.7762) .model MJE350 PNP (IS=6.01619e-15 BF=157.387 NF=0.910131 VAF=23.273 IKF=0.0564808 ISE=4.48479e-12 NE=1.58557 BR=0.1 NR=1.03823 VAR=4.14543 IKR=0.0999978 ISC=1.00199e-13 NC=1.98851 RB=0.1 IRB=0.202965 RBM=0.1 RE=0.0710678 RC=0.355339 XTB=1.03638 XTI=3.8424 EG=1.206 CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 XTF=1 VTF=10 ITF=0.01 CJC=1e-11 VJC=0.75 MJC=0.33 XCJC=0.9 FC=0.5 CJS=0 VJS=0.75 MJS=0.5 TR=1e-07 PTF=0 KF=0 AF=1 Vceo=300 Icrating=500m mfg=Fairchild) .model MJE340 NPN (IS=1.03431e-13 BF=172.974 NF=0.939811 VAF=27.3487 IKF=0.0260146 ISE=4.48447e-11 NE=1.61605 BR=16.6725 NR=0.796984 VAR=6.11596 IKR=0.10004 ISC=9.99914e-14 NC=1.99995 RB=1.47761 IRB=0.2 RBM=1.47761 RE=0.0001 RC=1.42228 XTB=2.70726 XTI=1 EG=1.206 CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 XTF=1 VTF=10 ITF=0.01 CJC=1e-11 VJC=0.75 MJC=0.33 XCJC=0.9 FC=0.5 CJS=0 VJS=0.75 MJS=0.5 TR=1e-07 PTF=0 KF=0 AF=1 Vceo=300 Icrating=500m mfg=Fairchild) * .MODEL BC556A PNP( + IS=2.059E-14 + NF=1.003 + ISE=2.971E-15 + NE=1.316 + BF=227.3 + IKF=0.08719 + VAF=37.2 + NR=1.007 + ISC=1.339E-14 + NC=1.15 + BR=7.69 + IKR=0.07646 + VAR=11.42 + RB=1 + IRB=1E-06 + RBM=1 + RE=0.688 + RC=0.6437 + XTB=0 + EG=1.11 + XTI=3 + CJE=1.4E-11 + VJE=0.5912 + MJE=0.3572 + TF=7.046E-10 + XTF=4.217 + VTF=5.367 + ITF=0.1947 + PTF=0 + CJC=1.113E-11 + VJC=0.1 + MJC=0.3414 + XCJC=0.6288 + TR=1E-32 + CJS=0 + VJS=0.75 + MJS=0.333 + FC=0.7947 ) * .MODEL BAV21 d +IS=7.294112E-09 RS=0.706 N=1.904350 +BV=250 IBV=100e-6 NBV=145.396351 +VJ=0.666016 M=0.084417 * Typical capacitance and reverse recovery time * Trr = 26ns +CJO=1.172445e-12 TT=36.5e-9 * Worst case capacitance and reverse recovery time * Trr = 50 ns *+CJO=5.0e-12 TT=68.1e-9 ******************************** * Copyright: * * Vishay Intertechnology, Inc. * ******************************** * Model for Vishay diode BAV21WS-V..... * (T124D Chip) * VISHAY Semiconductor GmbH * Hartmut Harmel, 9 Aug 2006 * .SUBCKT BAV21jjs 1 2 .MODEL PN D ( + N=1.88 + IS=4.35E-9 + RS=0.391 + trs1=0.0006 + IKF=0.026 + XTI=3 + CJO=0.72p + VJ=0.55 + M=.175 *+ VJ=0.75 *+ M=.0331 + FC=0.5 + TT=40E-9 + BV=310 + TBV1=0.0005 + ISR=11e-9 + NR=2.34 + EG=1.12 + IBV=0.001 + KF=0 + AF=1 + IBV=1e-10) L1 1 3 1.0n L2 4 2 0.5n D1 3 4 PN .ENDS .MODEL 2SA1837 PNP ( IS=2.39372559E-10 NF=1.304015937 BF=300 VAF=273 IKF=2.087725944 NK=0.94719458 ISE=1.46829699E-11 NE=1.526663542 BR=4 NR=1 VAR=20 IKR=1.05 RE=0 RB=1.8 RC=1.65 CJE=4.7407E-10 VJE=1.1 MJE=0.5 CJC=8.6700E-11 VJC=0.3 MJC=0.3 TF=1.642191E-09 FC=0.5 ITF=1.076260106 XTF=5.868994022 TR=1.38U) .MODEL 2SC4793 NPN ( IS=1.8E-09 NF=1.43 BF=146.38 VAF=273 IKF=2.6 NK=0.95 ISE=6.286997E-10 NE=2.223629 BR=4 NR=1 VAR=20 IKR=1.05 RE=0 RB=1.7 RC=1.25 CJE=5.96964E-10 VJE=1.1 MJE=0.5 CJC=5.78E-11 VJC=0.3 MJC=0.3 TF=1.22678E-09 FC=0.5 ITF=10 XTF=99.52253015 TR=983N) * 2SA1381C - created March 11, 2011 copyright Cordell Audio .MODEL 2SA1381C pnp +IS=50e-15 BF=160 VAF=328 +IKF=0.5 ISE=10e-15 NE=1.5 NF=1 +RB=17 RC=4.1 RE=0.05 +CJE=71e-12 MJE=0.35 VJE=0.75 +CJC=8e-12 MJC=0.35 VJC=0.55 FC=0.5 +TF=900e-12 XTF=10000 VTF=35 ITF=20 +TR=1e-9 BR=1.6 IKR=0.09 +EG=0.6 XTB=0.9 XTI=3 NC=2 +ISC=3.2e-10 VAR=100 mfg=CA031111 * * * 2SC3503C - created March 11, 2011 copyright Cordell Audio .MODEL 2SC3503C npn +IS=40e-15 BF=170 VAF=769 +IKF=0.08 ISE=200e-15 NE=1.5 NF=1.0 +RB=75 RC=1.5 RE=0.1 +CJE=95e-12 MJE=0.35 VJE=0.75 +CJC=7e-12 MJC=0.35 VJC=0.75 FC=0.5 +TF=585e-12 XTF=10000 VTF=35 ITF=20 +TR=10e-9 BR=0.6 IKR=0.05 +EG=0.75 XTB=1.5 XTI=3 NC=1.5 +ISC=7e-15 NR=1.0 VAR=100 IRB=3e-6 +RBM=0.035 XCJC=1.0 mfg=CA031111 * * 2SA1381D - created March 11, 2011 copyright Cordell Audio .MODEL 2SA1381D pnp +IS=50e-15 BF=120 VAF=328 +IKF=0.5 ISE=10e-15 NE=1.5 NF=1 +RB=17 RC=4.1 RE=0.05 +CJE=71e-12 MJE=0.35 VJE=0.75 +CJC=8e-12 MJC=0.35 VJC=0.55 FC=0.5 +TF=900e-12 XTF=10000 VTF=35 ITF=20 +TR=1e-9 BR=1.6 IKR=0.09 +EG=0.6 XTB=0.9 XTI=3 NC=2 +ISC=3.2e-10 VAR=100 mfg=CA031111 * * * 2SC3503D - created March 11, 2011 copyright Cordell Audio .MODEL 2SC3503D npn +IS=40e-15 BF=120 VAF=769 +IKF=0.08 ISE=200e-15 NE=1.5 NF=1.0 +RB=75 RC=1.5 RE=0.1 +CJE=95e-12 MJE=0.35 VJE=0.75 +CJC=7e-12 MJC=0.35 VJC=0.75 FC=0.5 +TF=585e-12 XTF=10000 VTF=35 ITF=20 +TR=10e-9 BR=0.6 IKR=0.05 +EG=0.75 XTB=1.5 XTI=3 NC=1.5 +ISC=7e-15 NR=1.0 VAR=100 IRB=3e-6 +RBM=0.035 XCJC=1.0 mfg=CA031111 * ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL 1n4003 d +IS=1.22478e-08 RS=0.0414786 N=1.83369 EG=0.6 +XTI=0.05 BV=200 IBV=5e-08 CJO=1e-11 +VJ=0.7 M=0.5 FC=0.5 TT=1e-09 +KF=0 AF=1 * Model generated on October 12, 2003 * Model format: PSpice ********************************** * Model created by * * Uni.Dipl.-Ing. Arpad Buermen * * arpad.burmen@ieee.org * * Copyright: * * Thomatronik GmbH, Germany * * info@thomatronik.de * ********************************** * November 2000 * SPICE3 .model uf4002 d is = 8.03314E-007 n = 2.30554 rs = 0.0375715 + eg = 1.11 xti = 3 tnom = 25 + cjo = 2.92237E-011 vj = 0.858244 m = 0.338004 fc = 0.5 + tt = 1.23315E-007 bv = 110 ibv = 0.01 af = 1 kf = 0 **************** Power Discrete MOSFET Electrical Circuit Model **************** * Product Name: FQA27N25 * 150V N-Channel MOSFET and TO-3P *------------------------------------------------------------------------------- .SUBCKT FQA27N25 20 10 30 Rg 10 1 0.04 M1 2 1 3 3 DMOS L=1u W=1u .MODEL DMOS NMOS(VTO={3.75*{-0.0008*TEMP+1.02}} KP={24*{-0.00018*TEMP+1.0045}} + THETA=0.0576 VMAX=1.0E5 LEVEL=3) Cgs 1 3 1200p Rd 20 4 0.044 TC=0.0085 Dds 3 4 DDS .MODEL DDS D(BV={150*{0.0009*TEMP+0.9775}} M=0.48 CJO=210p VJ=0.60) Dbody 3 20 DBODY .MODEL DBODY D(IS=1.5E-12 N=1.00 RS=0.0064 EG=1.15 TT=100n) Ra 4 2 0.013 TC=0.0085 Rs 3 5 0.0015 Ls 5 30 1n M2 1 8 6 6 INTER E2 8 6 4 1 2 .MODEL INTER NMOS (VTO=0 KP=10 LEVEL=1) CGDMAX 7 4 1450p Rcgd 7 4 1E7 Dgd 6 4 DGD Rdgd 4 6 1E7 .MODEL DGD D(M=0.60 CJO=1450p VJ=0.62) M3 7 9 1 1 INTER E3 9 1 4 1 -2 .ENDS **************** Power Discrete MOSFET Electrical Circuit Model **************** * Product Name: FQA28N15 * 150V N-Channel MOSFET and TO-3P *------------------------------------------------------------------------------- .SUBCKT FQA28N15 20 10 30 Rg 10 1 0.04 M1 2 1 3 3 DMOS L=1u W=1u .MODEL DMOS NMOS(VTO={3.75*{-0.0008*TEMP+1.02}} KP={24*{-0.00018*TEMP+1.0045}} + THETA=0.0576 VMAX=1.0E5 LEVEL=3) Cgs 1 3 1200p Rd 20 4 0.044 TC=0.0085 Dds 3 4 DDS .MODEL DDS D(BV={150*{0.0009*TEMP+0.9775}} M=0.48 CJO=210p VJ=0.60) Dbody 3 20 DBODY .MODEL DBODY D(IS=1.5E-12 N=1.00 RS=0.0064 EG=1.15 TT=100n) Ra 4 2 0.013 TC=0.0085 Rs 3 5 0.0015 Ls 5 30 1n M2 1 8 6 6 INTER E2 8 6 4 1 2 .MODEL INTER NMOS (VTO=0 KP=10 LEVEL=1) CGDMAX 7 4 1450p Rcgd 7 4 1E7 Dgd 6 4 DGD Rdgd 4 6 1E7 .MODEL DGD D(M=0.60 CJO=1450p VJ=0.62) M3 7 9 1 1 INTER E3 9 1 4 1 -2 .ENDS *-------------------------------------------------------------------------------- * Creation : Nov.-24-2003 * Fairchild Semiconductor .MODEL KSC1845 npn IS=1.075431E-13 BF=600.7 NF=1 BR=13.565 NR=1 ISE=1.98107E-13 NE=2 ISC=1.8378E-11 NC=1.5 VAF=82.803 VAR=20.6691 IKF=0.596 IKR=0.0190546 RB=157 RBM=12.092 IRB=1.258925E-6 RE=1.5 RC=180.7 CJE=2.057447E-11 VJE=0.7300286 MJE=0.3619943 FC=0.5 CJC=4.525739p VJC=0.5 MJC=0.3659045 XTB=1.7281 EG=1.1809 XTI=3 TF=3.14E-11 mfg=Fairchild .MODEL KSA1381 pnp IS=5.5544E-14 BF=148 BR=1.592 ISE=2.0546f NE=1.5 ISC=3.24807E-10 NC=2 VAF=580 VAR=100 IKF=0.2163 IKR=0.087544 RB=10.18 RE=0.0512 RC=4.072 CJE=9.572p VJE=0.748 MJE=0.371 FC=0.5 CJC=1.147p VJC=0.541 MJC=0.329 TF=1.0312E-09 XTB=0.907 EG=0.62 XTI=3 .MODEL KSC3503 NPN IS=2.0893E-14 BF=101.5 NF=1 BR=7.655 NR=1.007 ISE=4.3652E-14 NE=1.5 ISC=1.2598n NC=2 VAF=717.25 VAR=13.16 IKF=0.2512 IKR=0.0832 RB=2.98 RBM=0.001 IRB=0.001 RE=0.5305 RC=0.9 QCO=0.05 RCO=50.1187 VO=2.476 GAMMA=1.8231E-7 CJE=6.6039E-11 VJE=0.7017 MJE=0.3253 FC=0.5 CJC=6.6072p VJC=0.5 MJC=0.2439 XCJC=0.6488 XTB=1.4089 EG=1.2129 XTI=3 Vceo=300 Icrating=100m mfg=Fairchild .MODEL 2N5551_Cordell npn IS=9f BF=125 VAF=667 IKF=0.09 ISE=1f NE=1.3 NF=1 RB=92 RC=1 RE=0.1 CJE=45p MJE=0.35 VJE=0.75 CJC=4.9p MJC=0.30 VJC=0.75 FC=0.5 TF=565p XTF=300 VTF=5 ITF=2.0 TR=1.2n BR=3 IKR=0 EG=1.1 XTB=1.5 XTI=3 NC=2 ISC=0 mfg=CA031011 .model 2N5551 ako:2N5551_Cordell .MODEL 2N5401_Cordell pnp IS=25f BF=220 VAF=196 IKF=0.2 ISE=2f NE=1.4 NF=1 RB=60 RC=2 RE=0.1 CJE=35p MJE=0.40 VJE=0.75 CJC=15p MJC=0.55 VJC=0.75 FC=0.5 TF=800p XTF=60 VTF=0 ITF=4 TR=1.5n BR=4 IKR=0 EG=1.1 XTB=1.5 XTI=3 NC=2 ISC=0 mfg=CA031011 .model 2N5401 ako:2N5401_Cordell .MODEL 2SC5200_k npn IS=300f BF=100 NF=1 BR=8.025 NR=1 ISE=200p IKF=18 NE=2.0 ISC=2.01764E-10 NC=1.5 VAF=400 VAR=100 IKR=1.39087 RB=1.1 RBM=0.00011 IRB=1.51189E-6 RE=0.0032 RC=0.0183 CJE=6.1n VJE=0.711 MJE=0.304 FC=0.5 CJC=380p VJC=0.84 MJC=0.25 TF=5n TR=3.342E-7 XTB=1.72 EG=0.78 XTI=3 .MODEL 2SA1943_k pnp IS=650f BF=100 NF=1 BR=8.805 NR=1 ISE=10p IKF=15 NE=2.0 ISC=2.01764E-10 NC=1.5 VAF=600 VAR=100 IKR=1.39087 RB=1.1 RBM=0.00011 IRB=1.51189n RE=0.0061 RC=0.0103 CJE=5.26n VJE=0.711 MJE=0.304 FC=0.5 CJC=750p VJC=0.84 MJC=0.25 TF=5n TR=3.342E-7 XTB=2.28 EG=0.81 XTI=3 .MODEL BD139_Cordell npn IS=150f BF=260 VAF=99 IKF=1.2 ISE=70f NE=1.2 NF=1.0 RB=5 RC=0.01 RE=0.08 CJE=293p MJE=0.33 VJE=0.67 CJC=49p MJC=0.39 VJC=0.52 FC=0.5 TF=585p XTF=10000 VTF=35 ITF=20 TR=10n BR=78 IKR=0.14 EG=1.21 XTB=1.14 XTI=3 NC=1.45 ISC=19p NR=1.0 VAR=7.5 IRB=0.03 RBM=0.001 XCJC=0.53 mfg=CA041311 .model BD139 ako:BD139_Cordell .MODEL KSA992 pnp ( IS=5.7544E-14 BF=348.1 NF=1 BR=3.62 NR=0.95 ISE=5.7544f NE=1.5 ISC=1.8378E-14 NC=1 VAF=144 VAR=16.68 IKF=0.298 IKR=0.0525 RB=140 RBM=16.084 IRB=1.4125m RE=0.38 RC=0.47 CJE=2.3093E-11 VJE=0.855 MJE=0.4104 FC=0.5 CJC=8.9251p VJC=0.5 MJC=0.3497 XTB=1.2849 EG=1.1603 XTI=3 XCJC=0.3062 ) * * BD140C - created April 13, 2011 copyright Cordell Audio .MODEL BD140 pnp +IS=120e-15 BF=113 VAF=140 +IKF=1.5 ISE=1000e-15 NE=1.5 NF=1 +RB=5 RC=0.01 RE=0.1 +CJE=220e-12 MJE=0.35 VJE=0.7 +CJC=68e-12 MJC=0.35 VJC=0.6 XCJC=0.5 FC=0.5 +TF=320e-12 XTF=10000 VTF=35 ITF=20 +TR=100e-9 BR=25 IKR=0.1 +EG=1.2 XTB=1.5 XTI=3 NC=1.4 +ISC=7e-12 NR=1.0 VAR=8 IRB=0.01 RBM=0.01 mfg=CA041311 * * * BD140C - created April 13, 2011 copyright Cordell Audio .MODEL BD140_Cordell pnp +IS=120e-15 BF=113 VAF=140 +IKF=1.5 ISE=1000e-15 NE=1.5 NF=1 +RB=5 RC=0.01 RE=0.1 +CJE=220e-12 MJE=0.35 VJE=0.7 +CJC=68e-12 MJC=0.35 VJC=0.6 XCJC=0.5 FC=0.5 +TF=320e-12 XTF=10000 VTF=35 ITF=20 +TR=100e-9 BR=25 IKR=0.1 +EG=1.2 XTB=1.5 XTI=3 NC=1.4 +ISC=7e-12 NR=1.0 VAR=8 IRB=0.01 RBM=0.01 mfg=CA041311 * .MODEL MJL1302C pnp + IS=7e-12 BF=114 VAF=550 + IKF=30 ISE=1e-7 NE=5 NF=1.0 + RB=3.3 RC=0.1 + CJE=16e-9 MJE=0.45 VJE=0.8 RE=0.0 + CJC=2.3e-9 MJC=0.4 VJC=0.3 FC=0.1 + TF=3.0e-9 XTF=1000 VTF=2 ITF=150 + TR=100e-9 BR=5 VAR=4.3 NR=1.1 + EG=1.1 XCJC=1.0 XTB=0.1 XTI=1.0 + NC=4 ISC=0.3e-12 + IKR=4.5 CJS=0 VJS=0.75 MJS=0.5 + PTF=0 KF=0 AF=1 Vceo=200 + Icrating=15 mfg=CA041611 * .MODEL MJL3281C npn + IS=5e-12 BF=158 VAF=1000 + IKF=50 ISE=20e-12 NE=1.5 NF=1.0 + RB=3.0 RC=0.1 + CJE=11e-9 MJE=0.35 VJE=0.5 RE=0.0 + CJC=1.2e-9 MJC=0.5 VJC=0.6 FC=0.1 + TF=2.7e-9 XTF=7500 VTF=3 ITF=750 + TR=100e-9 BR=5 VAR=4.3 NR=1.1 + EG=1.1 XCJC=1.0 XTB=0.12 XTI=1.0 + NC=4 ISC=0.3e-12 + IKR=4.4 CJS=0 VJS=0.75 MJS=0.5 + PTF=0 KF=0 AF=1 Vceo=200 + Icrating=15 mfg=CA041611 .model BC556B PNP(IS=3.83E-14 NF=1.008 ISE=1.22E-14 NE=1.528 BF=344.4 IKF=0.08039 VAF=21.11 NR=1.005 ISC=2.85E-13 NC=1.28 BR=14.84 IKR=0.047 VAR=32.02 RB=1 IRB=1.00E-06 RBM=1 RE=0.6202 RC=0.5713 XTB=0 EG=1.11 XTI=3 CJE=1.23E-11 VJE=0.6106 MJE=0.378 TF=5.60E-10 XTF=3.414 VTF=5.23 ITF=0.1483 PTF=0 CJC=1.08E-11 VJC=0.1022 MJC=0.3563 XCJC=0.6288 TR=1.00E-32 CJS=0 VJS=0.75 MJS=0.333 FC=0.8027 Vceo=65 Icrating=100m mfg=Philips) .MODEL BC550C npn +IS=45e-15 BF=689 VAF=162 +IKF=0.09 ISE=4600e-15 NE=2 NF=0.9965 +RB=167 RC=1 RE=0.04 +CJE=18.7e-12 MJE=0.35 VJE=0.75 +CJC=6.2e-12 MJC=0.25 VJC=0.4 FC=0.5 +TF=595e-12 XTF=10 VTF=10 ITF=1 +TR=10e-9 BR=12.2 IKR=0.34 +EG=1.2 XTB=1.65 XTI=3 NC=0.996 +NR=1.0 VAR=120 IRB=7e-5 RBM=1.1 +XCJC=0.6 +ISC=5e-15 mfg=CA030111 .MODEL BC560C pnp +IS=60e-15 BF=900 VAF=160 +IKF=0.10 ISE=70e-15 NE=1.42 NF=1 +RB=170 RC=1.0 RE=0.05 +CJE=19e-12 MJE=0.3 VJE=0.75 +CJC=3.9e-12 MJC=0.3 VJC=0.75 FC=0.5 +TF=600e-12 XTF=7 VTF=4 ITF=0.45 +TR=10e-9 BR=3 IKR=0 +EG=1.1 XTB=1.5 XTI=3 NC=2 +ISC=0 mfg=CA030211 .model BC546B NPN(IS=2.39E-14 NF=1.008 ISE=3.55E-15 NE=1.541 BF=294.3 IKF=0.1357 VAF=63.2 NR=1.004 ISC=6.27E-14 NC=1.243 BR=7.946 IKR=0.1144 VAR=25.9 RB=1 IRB=1.00E-06 RBM=1 RE=0.4683 RC=0.85 XTB=0 EG=1.11 XTI=3 CJE=1.36E-11 VJE=0.65 MJE=0.3279 TF=4.39E-10 XTF=120 VTF=2.643 ITF=0.7495 PTF=0 CJC=3.73E-12 VJC=0.3997 MJC=0.2955 XCJC=0.6193 TR=1.00E-32 CJS=0 VJS=0.75 MJS=0.333 FC=0.9579 Vceo=65 Icrating=100m mfg=Philips) ***** .model MPSA43 NPN(Is=34.9f Xti=3 Eg=1.11 Vaf=100 Bf=2.65K Ne=1.708 Ise=16.32p Ikf=23.79m Xtb=1.5 Br=9.769 Nc=2 Isc=0 Ikr=0 Rc=7 Cjc=14.23p Mjc=.5489 Vjc=.75 Fc=.5 Cje=49.62p Mje=.4136 Vje=.75 Tr=934.3p Tf=1.69n Itf=5 Vtf=20 Xtf=150 Rb=10) .MODEL MPSA43 NPN(IS=1.59E-13 ISE=3.62E-16 ISC=9.06E-11 XTI=3.00 BF=7.04E1 BR=1.76E1 IKF=1.00E1 IKR=1.00 XTB=1.5 VAF=4.51E1 VAR=9.11E1 VJE=3.00E-1 VJC=4.64E-1 RE=4.19E-1 RC=4.11E-1 RB=3.23E1 RBM=7.75E-2 IRB=1.30m CJE=1.31E-10 CJC=1.56E-11 .00 FC=5.00E-1 NF=1.03 NR=1.11 NE=1.21 NC=1.47 MJE=4.02E-1 MJC=5.80E-1 TF=1.73n TR=934.3p ITF=1.33 VTF=9.99E5 XTF=1.00E2 EG=1.11 VCEO=200 ICRATING=500m MFG=SIEMENS" .model MPSA93 PNP(Is=218.9f Xti=3 Eg=1.11 Vaf=100 Bf=99 Ne=1.307 Ise=218.9f Ikf=.2016 Xtb=1.5 Br=24.67 Nc=2 Isc=0 Ikr=0 Rc=7 Cjc=19.88p Mjc=.4876 Vjc=.75 Fc=.5 Cje=81.49p Mje=.3493 Vje=.75 Tr=516.9p Tf=1.395n Itf=1.5 Vtf=22 Xtf=270 Rb=10) .model 2N5550 NPN(Is=2.511f Xti=3 Eg=1.11 Vaf=100 Bf=213.4 Ne=1.241 Ise=2.511f Ikf=.3495 Xtb=1.5 Br=3.24 Nc=2 Isc=0 Ikr=0 Rc=1 Cjc=4.883p Mjc=.3047 Vjc=.75 Fc=.5 Cje=18.79p Mje=.3416 Vje=.75 Tr=1.212n Tf=560.1p Itf=50m Vtf=5 Xtf=8 Rb=10 Vceo=150 Icrating=600m mfg=Fairchild) * .model 2N5401 PNP(Is=21.48f Xti=3 Eg=1.11 Vaf=100 Bf=132.1 Ne=1.375 Ise=21.48f Ikf=.1848 Xtb=1.5 Br=3.661 Nc=2 Isc=0 Ikr=0 Rc=1.6 Cjc=17.63p Mjc=.5312 Vjc=.75 Fc=.5 Cje=73.39p Mje=.3777 Vje=.75 Tr=1.476n Tf=641.9p Itf=0 Vtf=0 Xtf=0 Rb=10 Vceo=150 Icrating=600m mfg=Fairchild) .MODEL Q2SC4793_x NPN ( IS=1.8E-09 NF=1.43 BF=146.38 VAF=273 IKF=2.6 NK=0.95 ISE=6.286997E-10 NE=2.223629 BR=4 NR=1 VAR=20 IKR=1.05 RE=0 RB=1.7 RC=1.25 CJE=5.96964E-10 VJE=1.1 MJE=0.5 CJC=5.78E-11 VJC=0.3 MJC=0.3 TF=1.22678E-09 FC=0.5 ITF=10 XTF=99.52253015 TR=983N) .model MPSA42 NPN(Is=34.9f Xti=3 Eg=1.11 Vaf=100 Bf=2.65K Ne=1.708 Ise=16.32p Ikf=23.79m Xtb=1.5 Br=9.769 Nc=2 Isc=0 Ikr=0 Rc=7 Cjc=14.23p Mjc=.5489 Vjc=.75 Fc=.5 Cje=49.62p Mje=.4136 Vje=.75 Tr=934.3p Tf=1.69n Itf=5 Vtf=20 Xtf=150 Rb=10) .model J2N5565 NJF(Beta=9.109m Betatce=-.5 Rd=1 Rs=1 Lambda=7.5m Vto=-1.447 Vtotc=-2.5m Is=94.42f Isr=921.9f N=1 Nr=2 Xti=3 Alpha=88.38u Vk=171.6 Cgd=8.67p M=.4742 Pb=1 Fc=.5 Cgs=9.76p Kf=67.86E-18 Af=1) .model irfp240cc VDMOS(nchan Vto=4.0 Kp=4.8 Lambda=0.0032 Rs=0.01 Rd=0.1 Rds=1e7 Cgdmax=2600p Cgdmin=10p a=0.35 +Cgs=1250p Cjo=3000p m=0.75 VJ=2.5 IS=4.0E-06 N=2.4 ksubthres=190m) .model irfp9240cc VDMOS(pchan Vto=-3.76 Kp=9 Lambda=0.004 Rs=0.064 Rd=0.1 Rds=1e7 Cgdmax=1200p Cgdmin=15p a=0.26 +Cgs=1130p Cjo=2070p m=0.68 VJ=2.5 IS=4.0E-06 N=2.4 ksubthres=107m) .model TTC004B_BJT NPN( + LEVEL = 1 + TNOM = 25 + IS = 1.374e-013 + BF = 137.2 + NF = 1 + VAF = 11.95 + IKF = 0.5057 + ISE = 8.098e-013 + NE = 1.8 + BR = 35.11 + NR = 1 + VAR = 1000 + IKR = 10 + ISC = 1.916e-011 + NC = 1.5 + NK = 0.55 + RE = 0.115 + RB = 0.885 + RC = 0.0709 + CJE = 5.78E-011 + VJE = 0.75 + MJE = 0.33 + CJC = 2.89E-011 + VJC = 0.75 + MJC = 0.33 + FC = 0.5 + TF = 1.545E-009 + XTF = 1 + VTF = 1 + ITF = 1 + PTF = 0 + TR = 0 + EG = 1.11 + XTB = 1.4 + XTI = 6.467) .model TTC004B ako:TTC004B_BJT .model Qmj21194 npn( +IS=4.02325e-14 BF=10000 NF=1.1488 VAF=10000 +IKF=0.377331 ISE=2.16244e-09 NE=2.49213 BR=0.1 +NR=1.5 VAR=1.70851 IKR=3.77331 ISC=1.00031e-16 +NC=3.99945 RB=0.1 IRB=0.1 RBM=0.1 +RE=0.00775691 RC=0.0387846 XTB=0.1 XTI=1 +EG=1.05 CJE=1.07724e-08 VJE=0.975489 MJE=0.524369 +TF=1e-08 XTF=2.16157e+06 VTF=0.184568 ITF=5.56361 +CJC=2.68609e-10 VJC=1.64862 MJC=0.242322 XCJC=0.1 +FC=0.910137 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1) .MODEL Qmjl21193 pnp +IS=2.37302e-11 BF=92.8585 NF=0.85 VAF=1000 +IKF=7.81463 ISE=9.34142e-13 NE=1.83168 BR=1.39987 +NR=0.905395 VAR=421.163 IKR=1.8668 ISC=9.34142e-13 +NC=3.03125 RB=14.6266 IRB=0.1 RBM=0.149902 +RE=0.000682292 RC=0.146081 XTB=1.32633 XTI=1.05623 +EG=1.05 CJE=1.15773e-08 VJE=0.57352 MJE=0.417157 +TF=1e-08 XTF=1.946 VTF=17401.6 ITF=3.36265 +CJC=5e-10 VJC=0.95 MJC=0.23891 XCJC=0.999998 +FC=0.987529 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Jan 25, 2004 * Model format: PSpice * * MJL21193C - created November 22, 2010 copyright Cordell Audio .MODEL mjl21193C pnp + IS=1.6e-12 BF=110 VAF=300 + IKF=4 ISE=5e-12 NE=1.5 NF=0.95 + RB=2.0 RBM=2.0 IRB=10 RC=0.06 + CJE=13e-9 MJE=0.35 VJE=0.5 RE=0.001 + CJC=1.5e-9 MJC=0.5 VJC=0.6 FC=0.5 + TF=24e-9 XTF=1.0 VTF=10 ITF=10 + TR=100e-9 BR=5 VAR=100 NR=1.1 + EG=1.1 XCJC=0.96 XTB=0.1 XTI=1.0 + NC=4 ISC=0.3e-12 mfg=CA112210 * * * MJL21194C - created November 22, 2010 copyright Cordell Audio .MODEL mjl21194C npn + IS=4e-12 BF=70 VAF=500 + IKF=14 ISE=1.2e-9 NE=2.0 NF=1.01 + RB=3.4 RBM=0.1 IRB=1.0 RC=0.06 + CJE=8e-9 MJE=0.35 VJE=0.5 RE=0.01 + CJC=1.2e-9 MJC=0.5 VJC=0.6 FC=0.5 + TF=21e-9 XTF=90 VTF=10 ITF=100 + TR=100e-9 BR=5 VAR=100 NR=1.1 + EG=1.1 XCJC=0.96 XTB=0.1 XTI=1.0 + NC=4 ISC=0.3e-12 mfg=CA112210 * ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Sep 10, 03 * MODEL FORMAT: SPICE3 .MODEL mj21194 npn +IS=4.02325e-14 BF=10000 NF=1.1488 VAF=10000 +IKF=0.377331 ISE=2.16244e-09 NE=2.49213 BR=0.1 +NR=1.5 VAR=1.70851 IKR=3.77331 ISC=1.00031e-16 +NC=3.99945 RB=0.1 IRB=0.1 RBM=0.1 +RE=0.00775691 RC=0.0387846 XTB=0.1 XTI=1 +EG=1.05 CJE=1.07724e-08 VJE=0.975489 MJE=0.524369 +TF=1e-08 XTF=2.16157e+06 VTF=0.184568 ITF=5.56361 +CJC=2.68609e-10 VJC=1.64862 MJC=0.242322 XCJC=0.1 +FC=0.910137 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL 2N3906 PNP(IS=4E-14 BF=400 VAF=50 IKF=0.02 ISE=7E-15 NE=1.16 + BR=7.5 RC=2.4 CJE=6.3E-12 VJE=0.75 TF=5E-10 CJC=5.8E-12 VJC=0.75 TR=2.3E-8 + VJS=0.75 XTB=1.5 KF=6E-16 ) .model 2N1613 NPN(Is=14.1f Xti=3 Eg=1.11 Vaf=100 Bf=88.85 Ne=1.5 Ise=0 + Ikf=.75 Xtb=1.5 Br=5.591 Nc=2 Isc=0 Ikr=0 Rc=.7 Cjc=15.69p + Mjc=.3603 Vjc=.75 Fc=.5 Cje=55.06p Mje=.1553 Vje=.75 Tr=854.5p + Tf=1.332n Itf=1.6 Vtf=5 Xtf=55 Rb=10) .MODEL 2N3055_OLD NPN(IS=4.66E-12 BF=360 VAF=100 IKF=0.25 ISE=3.339E-11 + BR=2 ISC=5E-9 RB=3 IRB=0.001 RBM=0.4 RC=0.04 CJE=5.802E-10 VJE=1.2 + MJE=0.45 TF=8E-8 XTF=1 ITF=3 PTF=120 CJC=2.121E-10 MJC=0.4 TR=2.55E-6 + XTB=1 ) .model 2N3055 NPN(Is=974.4f Xti=3 Eg=1.11 Vaf=50 Bf=99.49 Ne=1.941 Ise=902.5p Ikf=4.029 Xtb=1.5 Br=2.949 Nc=2 Isc=0 Ikr=0 Rc=.1 Cjc=276p Vjc=.75 Mjc=.3333 Fc=.5 Cje=569.1p Vje=.75 Mje=.3333 Tr=971.7n Tf=39.11n Itf=20 Vtf=10 Xtf=2 Rb=.1 Vceo=60 Icrating=15 mfg=Texas) .model irfp240C VDMOS(nchan Vto=4.0 Kp=4.8 Lambda=0.0032 Rs=0.01 Rd=0.1 Rds=1e7 Cgdmax=2600p Cgdmin=10p a=0.35 Cgs=1250p Cjo=3000p m=0.75 VJ=2.5 IS=4.0E-06 N=2.4) .model irfp9240C VDMOS(pchan Vto=-3.76 Kp=9 Lambda=0.004 Rs=0.064 Rd=0.1 Rds=1e7 Cgdmax=1200p Cgdmin=15p a=0.26 Cgs=1130p Cjo=2070p m=0.68 VJ=2.5 IS=4.0E-06 N=2.4) .model IXFN140N30P VDMOS(nchan Vto=4.03 Kp=4.15 Lambda=4.3m Rs=2.2m Rd=0.17 Rds=1e7 + Cgdmax=4nF Cgdmin=50pF a=0.35 Cgs=13nF + Cjo=35nF m=0.75 VJ=2.5 IS=4.0E-06 N=2.4 ksubthres=.22) * PSpice Model Editor - Version 16.6.0 *$ **************** Power Discrete MOSFET Electrical Circuit Model ***************** ** Product Name: FDA59N30 ** 300V N-Channel UniFET ** Model Type: BSIM3V3 **------------------------------------------------------------------------------- .SUBCKT FDA59N30 2 1 3 *Nom Temp=25 deg C Dbody 7 5 DbodyMOD Dbreak 5 11 DbreakMOD Ebreak 11 7 17 7 330 Lgate 1 9 1.658e-9 Ldrain 2 5 1.440e-9 Lsource 3 7 2.203e-9 RLgate 1 9 16.58 RLdrain 2 5 14.4 RLsource 3 7 22.03 Rgate 9 6 1.5 It 7 17 1 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=1.08e-3 TC2=-1.36e-6) .MODEL DbodyMOD D (IS=2.85e-12 N=1 RS=3.12e-3 TRS1=3.12e-3 TRS2=1.4e-6 + CJO=6.78e-9 M=0.685 VJ=0.52 TT=2.36e-7 XTI=3 EG=1.17) .MODEL DbreakMOD D (RS=100e-3 TRS1=1e-3 TRS2=1.0e-6) Rdrain 5 16 RdrainMOD 0.047 .MODEL RdrainMOD RES (TC1=8.95e-3 TC2=1.29e-5) M_BSIM3 16 6 7 7 Bsim3 W=7.776 L=2.0e-6 NRS=1 .MODEL Bsim3 NMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=1100e-10 XJ=1.4e-6 NCH=1.3e17 + U0=700 VSAT=2.5e5 DROUT=1.0 + DELTA=0.10 PSCBE2=0 RSH=5.09e-4 + VTH0=4.55 VOFF=-0.1 NFACTOR=1.1 + LINT=3.05e-7 DLC=3.05e-7 + CGSO=1.2e-15 CGSL=0 CGDO=1.0e-15 + CGDL=4.05e-10 CJ=0 CF=0 + CKAPPA=0.12 KT1=-1.78 KT2=0 + UA1=3.2e-9 NJ=10) .ENDS ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL Qmje15033 pnp +IS=7.51228e-10 BF=134.35 NF=1.25737 VAF=12.5778 +IKF=1.88497 ISE=7.74267e-12 NE=3.34528 BR=5.14173 +NR=1.47488 VAR=1.4505 IKR=7.47186 ISC=3.25e-13 +NC=4 RB=4.37743 IRB=0.1 RBM=0.1 +RE=0.000332989 RC=0.381218 XTB=0.223027 XTI=1 +EG=1.05 CJE=3.06005e-09 VJE=0.64838 MJE=0.352991 +TF=4.78203e-09 XTF=1.50001 VTF=1.00006 ITF=0.999988 +CJC=3.00101e-10 VJC=0.600019 MJC=0.409916 XCJC=0.8 +FC=0.534975 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Feb 1, 2004 * Model format: PSpice ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL Qmje15032 npn +IS=3.7344e-10 BF=86.8313 NF=1.23974 VAF=31.5491 +IKF=9.1678 ISE=9.2499e-12 NE=3.28127 BR=5.59346 +NR=1.33161 VAR=2.1791 IKR=5.15023 ISC=4e-13 +NC=4 RB=9.54492 IRB=0.1 RBM=0.1 +RE=0.000568481 RC=0.0931741 XTB=0.737036 XTI=1.04983 +EG=1.206 CJE=3.05969e-09 VJE=0.648491 MJE=0.352663 +TF=4.94819e-09 XTF=1.50001 VTF=1.0001 ITF=0.999982 +CJC=3.00108e-10 VJC=0.600021 MJC=0.40991 XCJC=0.8 +FC=0.534651 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Feb 1, 2004 * Model format: PSpice ********************************************************************* * (C) Copyright TOSHIBA CORPORATION 2016 * Date :21/08/2016 * File Name :TTA004B.lib * Part Number :TTA004B * Parameter Ver. :Ver.2 * Simulator :PSpice * Model Call Name :TTA004B * TNOM :25 degree * Pin Assign :1=Collector 2=Base 3=Emitter ********************************************************************* .SUBCKT TTA004B 1 2 3 Q1 1 2 3 3 TTA004B_BJT .MODEL TTA004B_BJT PNP( + LEVEL = 1 + TNOM = 25 + IS = 7.5e-014 + BF = 190 + IKF = 0.47 + ISE = 5e-011 + NE = 2.4 + NK = 0.63 + XTB = 1 + XTI = 2 + TRC1 = 0.003 + NF = 1 + VAF = 6.8 + VAR = 50 + BR = 6 + IKR = 5 + ISC = 1.0e-21 + NR = 1.015 + NC = 1 + RB = 4 + RC = 0.125 + RE = 0.05 + CJC = 4.09E-011 + MJC = 0.33 + VJC = 0.75 + CJE = 1e-11 + MJE = 0.33 + VJE = 0.75 + EG = 1.11 + TR = 1E-009 + TF = 1.59E-009) .ENDS .MODEL TTA004B_BJT PNP( + LEVEL = 1 + TNOM = 25 + IS = 7.5e-014 + BF = 190 + IKF = 0.47 + ISE = 5e-011 + NE = 2.4 + NK = 0.63 + XTB = 1 + XTI = 2 + TRC1 = 0.003 + NF = 1 + VAF = 6.8 + VAR = 50 + BR = 6 + IKR = 5 + ISC = 1.0e-21 + NR = 1.015 + NC = 1 + RB = 4 + RC = 0.125 + RE = 0.05 + CJC = 4.09E-011 + MJC = 0.33 + VJC = 0.75 + CJE = 1e-11 + MJE = 0.33 + VJE = 0.75 + EG = 1.11 + TR = 1E-009 + TF = 1.59E-009) .model TTA004B ako:TTA004B_BJT ******* * Spice Model * Item: MPSA92 * Date: 8/25/10 * Revision History: A * ========================================================== * This model was developed by: * Central Semiconductor Corp. * 145 Adams Avenue * Hauppauge, NY 11788 * * These models are subject to change without notice. * Users may not directly or indirectly re-sell or * re-distribute this model. This model may not * be modified, or altered without the consent of Central Semiconductor Corp. * * For more information on this model contact * Central Semiconductor Corp. at: * (631) 435-1110 or Engineering@centralsemi.com * http://www.centralsemi.com * ========================================================== ******* *SRC=MPSA92;MPSA92;BJTs PNP; Si; 300V 0.500A 50.0MHz CS .MODEL MPSA92 PNP ( + IS=28.39F + BF=127.12 + VAF=13.033 + IKF=.1566 + ISE=103.89E-15 + NE=1.2763 + BR=499.50 + VAR=50 + IKR=3.5m + ISC=1500P + NC=2.9970 + NR=1 + NF=1 + RB=11.300 + RC=778.1m + RE=490.00E-6 + CJE=109.36E-12 + VJE=1.2027 + MJE=.36517 + CJC=22.069E-12 + VJC=1.5000 + MJC=.47644 + TF=5.0525E-9 + XTF=4.4954 + XTB=1.5 + VTF=24.240 + ITF=.30881 + TR=4.8693E-6 ) ********** *$ **************** Power Discrete MOSFET Electrical Circuit Model ***************** ** Product Name: FQP27N25 ** N-Channel QFET MOSFET 250V, 25.5A, 100mohm ** Model Type: BSIM3V3 **------------------------------------------------------------------------------- .SUBCKT FQP27N25 2 1 3 *Nom Temp=25 deg C Dbody 7 5 DbodyMOD Dbreak 5 11 DbreakMOD Ebreak 11 7 17 7 275 Lgate 1 9 1.125e-9 Ldrain 2 5 1.105e-9 Lsource 3 7 1.105e-9 RLgate 1 9 11.25 RLdrain 2 5 11.05 RLsource 3 7 11.05 Rgate 9 6 0.5 It 7 17 1 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=1.12e-3 TC2=-1.23e-6) .MODEL DbodyMOD D (IS=6.05e-12 N=1.0 RS=3.98e-3 TRS1=1.85e-3 TRS2=1.06e-5 + CJO=2.94e-9 M=0.648 VJ=0.66 TT=1.402e-7 XTI=3 EG=1.18) .MODEL DbreakMOD D (RS=100e-3 TRS1=1.0e-3 TRS2=1e-6) Rdrain 5 16 RdrainMOD 0.0778 .MODEL RdrainMOD RES (TC1=7.52e-3 TC2=1.05e-5) M_BSIM3 16 6 7 7 Bsim3 W=5.394 L=2.0e-6 NRS=1 .MODEL Bsim3 NMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=1480e-10 XJ=1.4e-6 NCH=1.3e17 + U0=700 VSAT=1.0e5 DROUT=1.0 + DELTA=0.1 PSCBE2=0 RSH=1.09e-4 + VTH0=4.35 VOFF=-0.1 NFACTOR=1.1 + LINT=2.15e-7 DLC=2.15e-7 FC=0.5 + CGSO=1.00e-15 CGSL=0 CGDO=1.05e-14 + CGDL=3.48e-10 CJ=0 CF=0 + CKAPPA=0.2 KT1=-1.25 KT2=0 + UA1=-3.28e-9 NJ=10) .ENDS *$ ********************* Power Discrete MOSFET Thermal Model ********************** ** Package: TO-220 **------------------------------------------------------------------------------ .SUBCKT FQP27N25_Thermal TH TL CTHERM1 TH 6 9.20e-4 CTHERM2 6 5 2.90e-3 CTHERM3 5 4 1.32e-2 CTHERM4 4 3 8.50e-2 CTHERM5 3 2 3.10e-1 CTHERM6 2 TL 6.20e-1 RTHERM1 TH 6 9.50e-4 RTHERM2 6 5 4.30e-3 RTHERM3 5 4 4.80e-2 RTHERM4 4 3 8.54e-2 RTHERM5 3 2 1.50e-1 RTHERM6 2 TL 4.21e-1 .ENDS FQP27N25_Thermal **------------------------------------------------------------------------------ ** Creation: Aug.-22-2017 Rev.: 1.0 ** ON Semiconductor *$ ************************************************************** .MODEL IXTK120N25 NMOS + LEVEL=3 + L=2.0000E-6 + W=740 + KP=1.0401E-6 + RS=10.000E-3 + RD=5.4362E-3 + VTO=3.7831 + RDS=5.0000E6 + TOX=2.0000E-6 + CGSO=13.514E-18 + CGDO=1.9406E-12 + CBD=7.2767E-9 + MJ=1.5000 + PB=3 + RG=10.000E-3 + IS=53.461E-6 + N=5 + RB=1.0000E-9 + GAMMA=0 + KAPPA=0 .SUBCKT IXTK120P20T G D S ** Model generated on September 19, 2012 R_ds D 9 0.02 R_gs G 70 0.001 L_s SG S 1n R_S S11 SG 0.0001 M111 9 70 S11 S11 MM111 L=1u W=50u .MODEL MM111 PMOS LEVEL=1 +IS=1e-32 +VTO=-3.7 +LAMBDA=3.88605e-03 +KP=1.00 E_vth 70 71 value={-0.7} M112 9 71 S11 S11 MM111 L=1u W=90u E_cdg 70 7dg G S 1 D_c D 7dg Ddg .MODEL Ddg D + CJO=3.3839E-9 + M=.43387 + VJ=3.3905 + N=10 C_vgs1 70 S 44n * * L_sd subd S 1n D_1 D subd BD1 .MODEL BD1 D + IS=53.975E-15 + N=.8356 + RS=1.7992E-3 + IKF=23.171 + CJO=22.563E-9 + M=.53013 + VJ=.3905 + ISR=73.153E-9 + BV=199.90 + IBV=25.911E-3 + TT=122.57E-9 .ENDS .SUBCKT ECF10N20 1 2 3 ********************************************** * Model Generated by PEDC * *Copyright(c) Power Electronics Design Centre* * All Rights Reserved * * Power Electronics Design Centre * * Dept of Elec & Electronic Engineering * * University of Wales Swansea * * Singleton Park * * Swansea SA2 8PP * * Tel : +44 (0)1792 295420 * * Fax : +44 (0)1792 295686 * * E-mail : pedc@swansea.ac.uk * ********************************************** * Model generated on Dec 6 1999 * MODEL FORMAT: SPICE Level 1 * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source * * * * O [1] * | * Z * Z Rd * Z * D2 | * Cdg0 | \|| [9] * |-||--| >|O---O-----| * | | /|| | | * [2] Rg | ||---| Z --- * 0--/\/\/\/\-O----|| M1 Z / \D1 * |[7] ||---| Z --- * | | Z | * | Cgs0 | |RDS | * |-----||--O---O-----| * | [8] * | * O * | * Z * Z Rs * Z * | * O [3] M1 9 7 8 8 MM L=1 W=1 * Default values used in MM: * The capacitances are added externally * Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=0.635 LAMBDA=0.11 KP=2.376 RS 8 3 0.427 D1 8 9 MD .MODEL MD D IS=1.0e-32 N=50 BV=250 +CJO=1.0e-9 VJ=0.7 M=0.5 RDS 8 9 1e+06 RD 9 1 0.62 RG 2 7 80 * Gate Source capacitance Cgs0 CAP1 7 8 480e-12 ************************* * Gate Drain capacitance Cdg0 CAP 7 4 12.2e-12 ************************* * Gate Drain Capacitance Cdgj0 * Modelled as a diode D2 4 9 MDD .MODEL MDD D IS=1e-32 N=50 +CJO=75.4e-12 VJ=0.174 M=1 ************************* .ENDS ECF10N20 .SUBCKT ECF10P20 1 2 3 ********************************************** * Model Generated by PEDC * *Copyright(c) Power Electronics Design Centre* * All Rights Reserved * * Power Electronics Design Centre * * Dept of Elec & Electronic Engineering * * University of Wales Swansea * * Singleton Park * * Swansea SA2 8PP * * Tel : +44 (0)1792 295420 * * Fax : +44 (0)1792 295686 * * E-mail : pedc@swansea.ac.uk * ********************************************** * Model generated on Dec 6 1999 * MODEL FORMAT: SPICE Level 1 * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source * * * * O [1] * | * Z * Z Rd * Z * D2 | * Cdg0 | /|| [9] * |-||--|< |O---O-----| * | [4]| \|| | | * [2] Rg | ||---| Z --- * 0--/\/\/\/\-O----|| M1 Z \ /D1 * |[7] ||---| Z --- * | | Z | * | Cgs0 | |RDS | * |-----||--O---O-----| * | [8] * | * O * | * Z * Z Rs * Z * | * O [3] M1 9 7 8 8 MM L=1 W=1 * Default values used in MM: * The capacitances are added externally * Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM PMOS LEVEL=1 IS=1e-32 +VTO=-0.537 LAMBDA=0.049 KP=0.611 RS 8 3 0.315 D1 9 8 MD .MODEL MD D IS=1.0e-32 N=50 BV=250 +CJO=1.45e-9 VJ=0.446 M=0.377 RDS 8 9 1e+06 RD 9 1 0.567 RG 2 7 25.2 * Gate Source capacitance Cgs0 CAP1 7 8 696e-12 ************************* * Gate Drain capacitance Cdg0 CAP 7 4 15.2e-12 ************************* * Gate Drain Capacitance Cdgj0 * Modelled as a diode D2 9 4 MDD .MODEL MDD D IS=1e-32 N=50 +CJO=27.6e-12 VJ=0.817 M=0.871 ************************* .ENDS ECF10P20 * * * LEDs * * BLUE LTL1CHTBK4 * GREEN LTL1CHKGKNN * RED LTL1CHKEKNN * * BLUE LED Lite-on LTL1CHTBK4 * created November 23, 2010 copyright Cordell Audio .model BLUE D(Is=25e-14 N=5 Rs=14 Eg=2.23 Tnom=27deg) * * * GREEN LED Lite-on LTL1CHKGKNN * created November 23, 2010 copyright Cordell Audio .model GREEN D(Is=1e-19 N=2.0 Rs=1.5 Eg=2.23 Tnom=27deg) * * * RED LED Liteon LTL1CHKEKNN * created November 23, 2010 copyright Cordell Audio .model RED D(Is=1.0e-12 N=3.0 Rs=9.0 Eg=2.17 Tnom=27deg) * * * * TL071 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.01 ON 06/16/89 AT 13:08 * (REV N/A) SUPPLY VOLTAGE: +/-15V * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | .SUBCKT TL071 1 2 3 4 5 * C1 11 12 3.498E-12 C2 6 7 15.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.715E6 -5E6 5E6 5E6 -5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=15.00E-12 BETA=270.1E-6 VTO=-1) .ENDS .model IRFP9240_ VDMOS (pchan Rg=9 Vto={(-3.76+(6m-1m)*(Temp-25))} Lambda=4m Rs={64m*(1+3.5m*(Temp-25))} Kp={9*((Temp+273)/(25+273))**-(2.3-1.5) } Ksubthres={0.15*(1+4m*(Temp-25))} Mtriode=0.2 Rd={0.25*(1+5m*(Temp-25)) } Cgdmax=1.6n Cgdmin=30p a=0.5 Cgs=1.4n Cjo=1n m=0.4 Vj=0.75 Is=10u N=7 Eg=3.15 Rb={0.05*(1+0m*(Temp-25)) } Vds=-200 Ron=500m Qg=44n mfg=VishIH1907) .model IRFP240_ VDMOS (Rg=17 Vto={4.0-(6m-1m)*(temp-25)} Lambda=3m Rs={40m*(1+3.5m*(temp-25))} Kp={6*((Temp+273)/(25+273))**-(2.3-1.5) } Ksubthres={0.15*(1+4m*(temp-25))} Mtriode={0.35} Rd={0.15*(1+5m*(temp-25)) } Cgdmax=1.3n Cgdmin=10p a=0.35 Cgs=1.2n Cjo=1n m=0.4 VJ=0.75 Is=10n N=1.5 Eg=1.1 Rb={0.01*(1+3m*(Temp-25)) } Vds=200 Ron=150m Qg=45n mfg=VishIH1907) ********************************************** Hegglun exicons .model 10N20_ VDMOS (Rg=60 Vto={0.17-(1.6m-1m)*(Temp-25)} Lambda=3m Rs={0.245*(1+2.6m*(Temp-25))} Kp={1.33*((Temp+273)/(273+25))**-(2-1.5)} Ksubthres={0.095*(1+2.9m*(Temp-25))} Mtriode=0.3 Rd={0.6*(1+3m*(Temp-25))} Cgdmax=500p Cgdmin=10p a=0.25 Cgs=500p Cjo=300p m=0.7 VJ=0.75 IS=4n N=1 Eg=1.5 Rb=0.2 Vds=200 Ron=1 mfg=Exicon) .model 10P20_ VDMOS (pchan Rg=60 Vto={(-0.535+(1.7m-1m)*(Temp-25))} Rs={0.37*(1+3.4m*(Temp-25))} Kp={0.995*((Temp+273)/(273+25))**-(2-1.5)} Ksubthres={0.12*(1+3.1m*(Temp-25))} Mtriode=0.4 Rd=0.2 Lambda=5m Cgdmax=900p Cgdmin=25p a=0.25 Cgs=900p Cjo=400p m=0.7 VJ=0.75 IS=4u N=2.4 Eg=1 Rb=1 Vds=-200 Ron=1 mfg=Exicon) .model 20N20_ VDMOS (Rg=30 Vto={0.155-(1.6m-1m)*(Temp-25)} Rs={0.12*(1+2.5m*(Temp-25))} Kp={2.40*((Temp+273)/(273+25))**-(1.9-1.5)} Ksubthres={0.09*(1+1m*(Temp-25))} Mtriode=0.3 Rd=0.16 Lambda=3m Cgdmax=1n Cgdmin=20p a=0.25 Cgs=1n Cjo=1n m=0.7 VJ=0.75 IS=8n N=1 Eg=1.5 Rb=0.1 Vds=200 Ron=500m mfg=Exicon) .model 20P20_ VDMOS (pchan Rg=30 Vto={-0.61+2.2m*(Temp-25)} Rs={0.17*(1+2.0m*(Temp-25))} Kp={1.85*((Temp+273)/(273+25))**-(2-1.5)} Ksubthres={0.105*(1+5m*(Temp-25))} Mtriode=0.35 Rd=0.05 Lambda=5m Cgdmax=1.9n Cgdmin=50p a=0.25 Cgs=1.8n Cjo=1n m=0.7 VJ=0.75 IS=8u N=2.4 Rb=0.5 Vds=-200 Ron=500m mfg=Exicon) ********************************************** .model 10N20-75_ VDMOS (Rg=60 Vto={0.17-(1.6m-1m)*50} Lambda=3m Rs={0.245*(1+2.6m*50)} Kp={1.33*((75+273)/(273+25))**-(2-1.5)} Ksubthres={0.095*(1+2.9m*50)} Mtriode=0.3 Rd={0.6*(1+3m*50)} Cgdmax=500p Cgdmin=10p a=0.25 Cgs=500p Cjo=300p m=0.7 VJ=0.75 IS=4n N=1 Eg=1.5 Rb=0.2 Vds=200 Ron=1 mfg=Exicon) .model 10P20-75_ VDMOS (pchan Rg=60 Vto={(-0.535+(1.7m-1m)*50)} Rs={0.37*(1+3.4m*50)} Kp={0.995*((75+273)/(273+25))**-(2-1.5)} Ksubthres={0.12*(1+3.1m*50)} Mtriode=0.4 Rd=0.2 Lambda=5m Cgdmax=900p Cgdmin=25p a=0.25 Cgs=900p Cjo=400p m=0.7 VJ=0.75 IS=4u N=2.4 Eg=1 Rb=1 Vds=-200 Ron=1 mfg=Exicon) .model 20N20-75_ VDMOS (Rg=30 Vto={0.155-(1.6m-1m)*50} Rs={0.12*(1+2.5m*50)} Kp={2.40*((75+273)/(273+25))**-(1.9-1.5)} Ksubthres={0.09*(1+1m*50)} Mtriode=0.3 Rd=0.16 Lambda=3m Cgdmax=1n Cgdmin=20p a=0.25 Cgs=1n Cjo=1n m=0.7 VJ=0.75 IS=8n N=1 Eg=1.5 Rb=0.1 Vds=200 Ron=500m mfg=Exicon) .model 20P20-75_ VDMOS (pchan Rg=30 Vto={-0.61+2.2m*50} Rs={0.17*(1+2.0m*50)} Kp={1.85*((75+273)/(273+25))**-(2-1.5)} Ksubthres={0.105*(1+5m*50)} Mtriode=0.35 Rd=0.05 Lambda=5m Cgdmax=1.9n Cgdmin=50p a=0.25 Cgs=1.8n Cjo=1n m=0.7 VJ=0.75 IS=8u N=2.4 Rb=0.5 Vds=-200 Ron=500m mfg=Exicon) ********************************************** ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL Qtip3055 npn +IS=9.20807e-13 BF=147.096 NF=1.04318 VAF=378.469 +IKF=10 ISE=6.09693e-09 NE=2.4688 BR=14.7096 +NR=1.5 VAR=149.08 IKR=3.14824 ISC=1e-16 +NC=1 RB=14.1904 IRB=0.1 RBM=0.1 +RE=0.036413 RC=0.182065 XTB=0.1 XTI=3.71709 +EG=1.05 CJE=7.39634e-08 VJE=0.531216 MJE=0.573868 +TF=1e-08 XTF=1.35738 VTF=0.997148 ITF=0.99974 +CJC=4.44315e-10 VJC=0.400241 MJC=0.410047 XCJC=0.803124 +FC=0.653134 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Feb 8, 2004 * Model format: PSpice .MODEL Qtip2955 pnp +IS=9.73033e-13 BF=139.321 NF=0.705063 VAF=537.022 +IKF=11.9427 ISE=8.51339e-09 NE=1.71065 BR=13.9321 +NR=1.5 VAR=185.952 IKR=3.70468 ISC=1e-16 +NC=1.31102 RB=20.1463 IRB=0.1 RBM=0.1 +RE=0.0507364 RC=0.253682 XTB=0.1 XTI=3.67928 +EG=1.05 CJE=9.53946e-08 VJE=0.426507 MJE=0.675433 +TF=1e-08 XTF=1.35754 VTF=0.998574 ITF=0.999498 +CJC=4.44708e-10 VJC=0.400409 MJC=0.409494 XCJC=0.803124 +FC=0.71051 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Feb 8, 2004 * Model format: PSpice .MODEL Q2n3055 npn +IS=2.37426e-14 BF=129.119 NF=0.85 VAF=31.1252 +IKF=0.990922 ISE=2.47498e-10 NE=1.89002 BR=1.01252 +NR=0.924456 VAR=254.624 IKR=2.70227 ISC=2.47498e-10 +NC=2.90624 RB=3.66609 IRB=0.1 RBM=0.1 +RE=0.000352673 RC=0.0764459 XTB=1.34801 XTI=1.07207 +EG=1.206 CJE=9.03089e-08 VJE=0.513954 MJE=0.59999 +TF=1e-08 XTF=1.36696 VTF=1.02605 ITF=0.987296 +CJC=5e-10 VJC=0.400243 MJC=0.410238 XCJC=0.803124 +FC=0.661216 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 * Model generated on Jan 24, 2004 * Model format: PSpice *Jun 22, 2010 *Doc. ID: 90146, Rev. A *File Name: part irfp260n _PS.txt and part irfp260n _PS.spi *This document is intended as a SPICE modeling guideline and does not *constitute a commercial product data sheet. Designers should refer to the *appropriate data sheet of the same number for guaranteed specification *limits. .SUBCKT irfp260n 1 2 3 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Dec 1, 00 * MODEL FORMAT: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=4.36308 LAMBDA=9.43213 KP=24.971 +CGSO=3.81166e-05 CGDO=1e-11 RS 8 3 0.026764 D1 3 1 MD .MODEL MD D IS=1.43789e-09 RS=0.00471658 N=1.25851 BV=200 +IBV=0.00025 EG=1.2 XTI=1.05255 TT=9.99946e-05 +CJO=3.21781e-09 VJ=2.53122 M=0.80474 FC=0.494537 RDS 3 1 1e+06 RD 9 1 0.0001 RG 2 7 6 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=7.55868e-09 VJ=0.627882 M=0.9 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.400098 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 9.32192e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.400098 .ENDS irfp260n *VDMOS (c) Copyright Ian Hegglun Nov 2019 .model LND150 VDMOS (Rg=100 Vto=-1.4 Lambda=0m + Rs=70 Kp=3m Ksubthres=95m Mtriode=0.6 Rd=300 + Bex=-2 Vtotc=-5m Tksubthres1=3m Trs1=2.6m Trd1=3m + Cgdmax=5p Cgdmin=3p a=0.3 Cgs=3p Cjo=15p m=0.7 VJ=0.75 + IS=15p N=1.5 EG=1.1 Rb=100 Vds=400 Ron=600 mfg=IH1911) *VDMOS with subthreshold (c) Ian Hegglun .model IRFP150 VDMOS (Rg=2 Vto=4.0 Kp=22 Lambda=3m + Rs=30m Ksubthres=0.15 Mtriode=0.35 Rd=30m + Bex=-1.6 Vtotc=-6m Tksubthres1=4m Trs1=3.5m Trd1=5m + Cgdmax=4.6n Cgdmin=100p a=0.35 Cgs=3n Cjo=1n + m=0.4 VJ=0.75 IS=1n N=1.5 Eg=1.35 Rb=5m Trb1=3m + Vds=100 Ron=50m Qg=140nC mfg=VishIH1907) .SUBCKT IRF610 1 2 3 * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=3.94473 LAMBDA=0.00953957 KP=0.484056 +CGSO=1.26059e-06 CGDO=1.00178e-11 RS 8 3 0.0001 D1 3 1 MD .MODEL MD D IS=1.6866e-09 RS=0.0538695 N=1.49978 BV=200 +IBV=0.00025 EG=1.2 XTI=4 TT=0 +CJO=1.59879e-10 VJ=2.42435 M=0.605977 FC=0.5 RDS 3 1 1e+06 RD 9 1 1.14151 RG 2 7 5.34748 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=2.10468e-10 VJ=1.4522 M=0.87562 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.4 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 4.00016e-10 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.4 .ENDS IRF610 .model IRF9610 PMOS(Level=3 Gamma=0 Delta=0 Eta=0 Theta=0 Kappa=0.2 Vmax=0 Xj=0 Tox=100n Uo=300 Phi=.6 Rs=.721 Kp=10.37u W=.64 L=2u Vto=-3.814 Rd=1.524 Rds=888.9K Cbd=222.3p Pb=.8 Mj=.5 Fc=.5 Cgso=1.517n Cgdo=30.29p Rg=2.4 Is=886.1E-18 N=4 Tt=1100n) .MODEL TTC011B_BJT NPN( LEVEL=1 IS=5e-013 BF=120 NF=1 VAF=18 IKF=2.2 ISE=1.8e-013 NE=1.3 BR=20 NR=1 VAR=10 IKR=0.005 ISC=1.5e-013 NC=1 NK=0.8 RE=0.08 RB=1.5 RC=0.08 CJE=8e-010 VJE=0.75 MJE=0.33 CJC=4.8156e-011 VJC=0.75 MJC=0.33 FC=0.5 TF=1.2e-009 XTF=10 VTF=2.8 ITF=1 PTF=0 TR=500E-09 EG=1.11 XTB=1.2 XTI=7 TRC1=0 TNOM=25) .MODEL TTA006B_BJT PNP( LEVEL=1 IS=8e-013 BF=235 NF=1 VAF=40 IKF=0.85 ISE=6.5e-013 NE=1.3 BR=3 NR=1.01 VAR=5 IKR=10 ISC=1e-011 NC=1.3 NK=0.5 RE=0.1 RB=0.4 RC=0.18 CJE=5e-010 VJE=0.75 MJE=0.33 CJC=7.22e-011 VJC=0.75 MJC=0.33 FC=0.5 TF=1.8e-009 XTF=10 VTF=3 ITF=1 PTF=0 TR=10E-09 EG=1.11 XTB=1.9 XTI=3.5 TRC1=0 TNOM=25) .SUBCKT irf9640 1 2 3 * Model generated on May 21, 96 * Model format: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM PMOS LEVEL=1 IS=1e-32 +VTO=-3.8062 LAMBDA=0.0228396 KP=10.7224 +CGSO=1.09465e-05 CGDO=1e-11 RS 8 3 0.101556 D1 1 3 MD .MODEL MD D IS=1e-17 RS=0.185714 N=1.5 BV=200 +IBV=0.00025 EG=1.2 XTI=4 TT=1e-07 +CJO=1.22255e-09 VJ=2.42988 M=0.605683 FC=0.493595 RDS 3 1 2e+06 RD 9 1 0.261579 RG 2 7 6.81119 D2 5 4 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=8.6947e-10 VJ=2.34088 M=0.9 FC=1e-08 D3 5 0 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.402798 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 1.8148e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 6 0 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.402798 .ENDS .SUBCKT irf640 1 2 3 * Model generated on Oct 31, 96 * MODEL FORMAT: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=4.0175 LAMBDA=0 KP=8.07753 +CGSO=1.18692e-05 CGDO=1e-11 RS 8 3 0.0422064 D1 3 1 MD .MODEL MD D IS=4.97512e-09 RS=0.0102406 N=1.42583 BV=200 +IBV=10 EG=1 XTI=1 TT=1e-07 +CJO=1.15901e-09 VJ=4.99924 M=0.867739 FC=0.5 RDS 3 1 8e+06 RD 9 1 0.0515961 RG 2 7 4.9251 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=2.02576e-09 VJ=1.41179 M=0.898453 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.4 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 2.22725e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.4 .ENDS irf640 * https://www.diyaudio.com/forums/solid-state/192431-diyab-amp-honey-badger-post6555578.html .model TTC004B_k AKO:TTC004B_BJT VAF=1000 VAR=11.95 .model TTA004B_k AKO:TTA004B_BJT VAF=50 VAR=6.8 RB=1 * 2N7000 model * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source .SUBCKT 2n7000 1 2 3 M1 9 7 8 8 MM L=100u W=100u .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=2.236 LAMBDA=0 KP=0.0932174 +CGSO=1.79115e-07 CGDO=1.0724e-11 RS 8 3 1.10523 D1 3 1 MD .MODEL MD D IS=2.71011e-10 RS=0.0140826 N=1.5 BV=60 +IBV=1e-05 EG=1.16084 XTI=3.00131 TT=0 +CJO=3.41211e-11 VJ=4.67429 M=0.899864 FC=0.1 RDS 3 1 2.4e+11 RD 9 1 0.0001 RG 2 7 2.18034 D2 4 5 MD1 .MODEL MD1 D IS=1e-32 N=50 +CJO=7.93181e-11 VJ=0.643298 M=0.9 FC=1e-08 D3 0 5 MD2 .MODEL MD2 D IS=1e-10 N=0.400165 RS=3.00002e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 1.58786e-10 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 .MODEL MD3 D IS=1e-10 N=0.400165 .ENDS 2n7000 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Feb 6, 08 * MODEL FORMAT: PSpice .MODEL njw3281g npn +IS=4.81888e-11 BF=119.415 NF=1.06881 VAF=21.6596 +IKF=10 ISE=1e-16 NE=1 BR=10.3886 +NR=1.06797 VAR=216.596 IKR=3.27392 ISC=1e-16 +NC=2.90616 RB=4.74135 IRB=0.1 RBM=1.57648 +RE=0.0001 RC=0.0383617 XTB=0.1 XTI=1 +EG=1.206 CJE=9.32161e-09 VJE=0.523647 MJE=0.322215 +TF=1.817e-09 XTF=1000 VTF=15.2293 ITF=121.9 +CJC=5e-10 VJC=0.8 MJC=0.23 XCJC=0.1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Feb 6, 08 * MODEL FORMAT: PSpice .MODEL njw1302g pnp +IS=5.45163e-13 BF=100.173 NF=0.981788 VAF=10 +IKF=4.32732 ISE=6.43606e-12 NE=1.46233 BR=0.562437 +NR=1.095 VAR=100 IKR=0.0147402 ISC=6.43606e-12 +NC=1.3691 RB=3.70218 IRB=0.1 RBM=0.163972 +RE=0.00611492 RC=0.0305746 XTB=1.67324 XTI=1 +EG=1.05 CJE=1.1214e-08 VJE=0.663546 MJE=0.32843 +TF=2.35244e-09 XTF=79.0726 VTF=4.60515 ITF=95.9461 +CJC=5e-10 VJC=0.95 MJC=0.23 XCJC=0.901894 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL Qnjw0302g pnp +IS=5.16751e-16 BF=114.657 NF=0.895716 VAF=50.2189 +IKF=6.409 ISE=3.9641e-15 NE=4 BR=1.47167 +NR=0.923324 VAR=255.567 IKR=6.34299 ISC=3.96408e-15 +NC=2.82194 RB=2.66347 IRB=0.1 RBM=2.0828 +RE=0.0001 RC=0.0652395 XTB=1.45322 XTI=1.08126 +EG=1.05 CJE=2.14504e-09 VJE=0.4 MJE=0.376227 +TF=2.16864e-09 XTF=1000 VTF=843.737 ITF=501.348 +CJC=5e-10 VJC=0.95 MJC=0.251547 XCJC=1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL Qnjw0281g npn +IS=4.36849e-12 BF=98.1488 NF=1.01332 VAF=37.9046 +IKF=9.71849 ISE=1e-16 NE=1.8326 BR=0.79921 +NR=1.09994 VAR=339.743 IKR=5.77305 ISC=1e-16 +NC=2.71592 RB=2.74892 IRB=0.33289 RBM=2.74892 +RE=0.000344671 RC=0.03203 XTB=1.7742 XTI=1.12262 +EG=1.20598 CJE=3.66793e-09 VJE=0.74806 MJE=0.85 +TF=2.27115e-09 XTF=1000 VTF=912.955 ITF=296.602 +CJC=5e-10 VJC=0.95 MJC=0.270858 XCJC=0.98254 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL PMBD7000 D + IS=6.0289E-9 + N=2.1283 + RS=1.0000E-3 + IKF=37.638E-3 + CJO=593.63E-15 + M=.1 + VJ=.68774 + ISR=2.0646E-9 + NR=4.9950 + BV=113.60 + IBV=10 + TT=5.7708E-9 *SRC=1N5314;1N5314;Diodes;JFET Regulator;100V 4.7mA *SYM=CRDIODE .SUBCKT 1N5314 1 2 *Connections Anode Cathode JFET 1 2 2 1N5314J .MODEL 1N5314J NJF VTO=-5.15 BETA=.245M LAMBDA=0.1M + IS=100.58F PB=.8 FC=.5 RS=165 RD=4 CGS=1.57P CGD=4.78P .ENDS * .MODEL 2SC4793 NPN (IS=0.1p BF=130 NF=1 ISE=0.1p RB=1 RE=0.1 RC=0.2 VAF=500 IKF=3 TF=1.6ns CJC=100p ) * .MODEL 2SA1837 PNP (IS=0.1p BF=130 NF=1 ISE=0.1p RB=1 RE=0.1 RC=0.2 VAF=500 IKF=3 TF=2.28n CJC=150p ) .MODEL 2SC4793_A NPN ( IS=1.8E-09 NF=1.43 BF=250 VAF=273 IKF=1.86762 NK=0.862397 ISE=4.7530e-11 NE=1.62116 BR=4 NR=1 VAR=20 IKR=1.05 RE=0 RB=1.4529 RC=1.25 CJE=2.4119e-010 VJE=0.776851 MJE=1 CJC=48.15E-12 VJC=0.75 MJC=0.33 TF=9.5343e-010 FC=0.947804 ITF=1169.93 XTF=10000 VTF=35 TR=983N Vceo=230 Icrating=1A mfg=Toshiba) .model 2SC4793C ako:2SC4793_A .MODEL 2SA1837_A PNP ( IS=2.3937e-010 NF=1.304 BF=250 VAF=273 IKF=1.9914 NK=0.9117 ISE=2.1180e-011 NE=1.5815 BR=4 NR=1 VAR=20 IKR=1.05 RE=0 RB=1.702 RC=1.65 CJE=1.5564e-010 VJE=0.726406 MJE=1 CJC=7.2230e-011 VJC=0.75 MJC=0.33 TF=1.16651e-9 FC=0.966476 ITF=1270.37 XTF=10000 VTF=35 TR=1.38U Vceo=230 Icrating=1A mfg=Toshiba) .model 2SA1837C ako:2SA1837_A .MODEL KSA1220 PNP IS=4.7863E-13 BF=289.3 BR=9.76 NR=1.006 ISE=5.2481p NE=2 ISC=2.4909E-11 NC=1.5 VAF=98.5 VAR=6.7 IKF=2.7061 IKR=0.0759 RB=2.26 RBM=0.2308 IRB=0.001 RE=0.1908 RC=1.1748 QCO=0.02 RCO=3.9811 VO=11.078 GAMMA=5.01187E-8 CJE=3.4786E-10 VJE=0.9575 MJE=0.4694 FC=0.5 CJC=1.1224E-10 VJC=0.5761 MJC=0.4365 XCJC=0.4955 XTB=1.7978 EG=1.2255 XTI=3 .MODEL KSC2690 NPN IS=1.7783E-13 BF=132.5 BR=8.495 NR=1.005 ISE=1.9953E-13 NE=1.5 ISC=1.5849n NC=1.98 VAF=580.75 VAR=18.15 IKF=4.0271 IKR=0.012 RB=2.98 RBM=0.001 IRB=0.6396 RE=0.0909 RC=1.4705 QCO=0.68 RCO=3.6239 VO=6.587 GAMMA=2.8216E-7 CJE=4.0082E-10 VJE=0.6696 MJE=0.3296 FC=0.5 CJC=6.0404E-11 VJC=0.5 MJC=0.4266 XCJC=0.4955 XTB=1.2590 EG=1.2277 XTI=3 .MODEL 2SD669A NPN ( BR=0.0116 CJE=1.5E-10 CJS=0 EG=1.11 FC=0.5 IKF=0.403 IKR=1 IRB=1E-06 IS=6.73f ISC=1E-13 ISE=1.14E-14 ITF=9.99 MJC=0.407 MJE=0.33 NC=2 NE=1.04 NF=0.8 NR=1.03 RB=4 RBM=0.761 RE=0.00255 TR=0 VAF=25.1 VAR=50 VJC=0.3 VJE=0.75 VTF=1E +06 XTB=3.82 XTI=2.5 BF=3.350000E+02 CJC=6.110000E-11 RC=5.550000E-01 TF=9.010000E-10 XTF=4.450000E+01) .model 2SB649A pnp ( IS=293.5f BF=216 NF=1.0 VAF=40 IKF=1.5 ISE=101.1p NE=2.6797 BR=7 NR=1.0 VAR=20 IKR=0.05 ISC=1.345p NC=1.5558 RB=0.46 RBM=0.46 RE=5m RC=1.07 CJE=295.4p VJE=0.6977 MJE=0.5197 TF=0.8569n XTF=53.4 VTF=2.83 ITF=1.22 CJC=113.1p VJC=0.5466 MJC=0.5742 XCJC=0.5 TR=14.65n XTB=1.87 EG=1.11 XTI=3.0 FC=0.5) .model NTE373 ako:2SD669A .model NTE374 ako:2SB649A ************************************* * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL Qmje15028 npn +IS=1.67457e-10 BF=151.597 NF=1.12464 VAF=48.0367 +IKF=2.26566 ISE=1e-16 NE=1 BR=0.874154 +NR=1.25219 VAR=480.367 IKR=1.50672 ISC=1e-16 +NC=2.99999 RB=16.5394 IRB=0.1 RBM=0.1 +RE=0.000147477 RC=0.0444081 XTB=0.84328 XTI=1 +EG=1.05 CJE=5.12619e-10 VJE=0.4 MJE=0.663107 +TF=1.88824e-09 XTF=39.7723 VTF=212.462 ITF=55.8204 +CJC=2.40888e-10 VJC=0.4 MJC=0.35679 XCJC=0.100001 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=2.26516e-06 PTF=0 KF=0 AF=1 * Model generated on Feb 1, 2004 * Model format: PSpice ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .SUBCKT tip142 1 2 3 * Model generated on Feb 8, 2004 * Model format: PSpice * Darlington macro model * External node designations * Node 1 -> Collect * Node 2 -> Base * Node 3 -> Emitter Q1 1 2 4 qmodel Q2 1 4 3 q1model 19.6725 D1 3 1 dmodel R1 2 4 8000 R2 4 3 40 * Default values used in dmodel * EG=1.11 TT=0 BV=infinite .MODEL dmodel d +IS=1e-12 RS=10 N=1 XTI=3 +CJO=0 VJ=0.75 M=0.33 FC=0.5 .MODEL qmodel npn +IS=2.92836e-16 BF=233.76 NF=1.2 VAF=1000 +IKF=0.222129 ISE=4.61322e-11 NE=2.48158 BR=1.89854 +NR=0.75 VAR=168.458 IKR=0.108495 ISC=9.99999e-14 +NC=2.00001 RB=7.90758 IRB=0.2 RBM=7.90758 +RE=0.275456 RC=1.42279 XTB=0.232595 XTI=3.02293 EG=1.206 +CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=1.67157e-09 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL q1model npn +IS=2.92836e-16 BF=233.76 NF=1.2 VAF=1000 +IKF=0.222129 ISE=4.61322e-11 NE=2.48158 BR=1.89854 +NR=0.75 VAR=168.458 IKR=0.108495 ISC=9.99999e-14 +NC=2.00001 RB=7.90758 IRB=0.2 RBM=7.90758 +RE=0.275456 RC=1.42279 XTB=0.232595 XTI=3.02293 EG=1.206 +CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=0 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .ENDS ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .SUBCKT tip147 1 2 3 * Model generated on Feb 8, 2004 * Model format: PSpice * Darlington macro model * External node designations * Node 1 -> Collect * Node 2 -> Base * Node 3 -> Emitter Q1 1 2 4 qmodel Q2 1 4 3 q1model 9.26065 D1 1 3 dmodel R1 2 4 8000 R2 4 3 40 * Default values used in dmodel * EG=1.11 TT=0 BV=infinite .MODEL dmodel d +IS=1e-12 RS=10 N=1 XTI=3 +CJO=0 VJ=0.75 M=0.33 FC=0.5 .MODEL qmodel pnp +IS=1.03024e-14 BF=257.093 NF=1.2 VAF=679.126 +IKF=0.190032 ISE=1.23159e-13 NE=1.73997 BR=1.10206 +NR=1.19838 VAR=126.182 IKR=0.103332 ISC=1.23159e-13 +NC=2 RB=5.06065 IRB=0.2 RBM=5.06065 +RE=0.199903 RC=2.01466 XTB=0.354371 XTI=3.01199 EG=1.206 +CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=1.67157e-09 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL q1model pnp +IS=1.03024e-14 BF=257.093 NF=1.2 VAF=679.126 +IKF=0.190032 ISE=1.23159e-13 NE=1.73997 BR=1.10206 +NR=1.19838 VAR=126.182 IKR=0.103332 ISC=1.23159e-13 +NC=2 RB=5.06065 IRB=0.2 RBM=5.06065 +RE=0.199903 RC=2.01466 XTB=0.354371 XTI=3.01199 EG=1.206 +CJE=1e-11 VJE=0.75 MJE=0.33 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=0 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .ENDS ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Oct 30, 03 * MODEL FORMAT: PSpice .MODEL MJE15035 pnp +IS=5.81508e-15 BF=313.373 NF=0.85 VAF=40.5017 +IKF=0.897023 ISE=6.74258e-16 NE=1.04249 BR=0.958017 +NR=0.894461 VAR=148.639 IKR=7.05393 ISC=6.74258e-16 +NC=2.84461 RB=3.62039 IRB=0.1 RBM=0.1 +RE=0.000923293 RC=0.233799 XTB=2.92628 XTI=1.01325 +EG=1.17461 CJE=1.5597e-09 VJE=0.99 MJE=0.554057 +TF=1.35882e-09 XTF=1000 VTF=467.207 ITF=58.3338 +CJC=1.58888e-10 VJC=0.4 MJC=0.23 XCJC=0.786287 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Oct 30, 03 * MODEL FORMAT: PSpice .MODEL MJE15034 npn +IS=3.92866e-12 BF=260.938 NF=1.02215 VAF=15.3399 +IKF=0.160087 ISE=1e-08 NE=2.54491 BR=26.0938 +NR=1.10885 VAR=153.399 IKR=1.60087 ISC=1e-08 +NC=1.89024 RB=0.41209 IRB=0.1 RBM=0.41209 +RE=0.0001 RC=0.208002 XTB=0.897431 XTI=1.39234 +EG=1.206 CJE=1.61534e-09 VJE=0.698417 MJE=0.382854 +TF=1.03079e-09 XTF=1000 VTF=100000 ITF=42.9041 +CJC=1.04458e-10 VJC=0.441587 MJC=0.23 XCJC=1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 [BAT42W] *SRC=BAT42W;DI_BAT42W;Diodes;Si; 30.0V 0.200A 5.00ns Diodes Inc Schottky Diode .MODEL BAT42W D ( IS=87.5u RS=18.1m BV=30.0 IBV=500n + CJO=8.88p M=0.333 N=3.51 TT=7.20n ) .MODEL BAV103 D + IS=21.910E-9 + N=2.2330 + RS=1.0000E-3 + IKF=19.230E-3 + CJO=1.0300E-12 + M=.1001 + VJ=.75 + ISR=10.010E-21 + BV=293.10 + IBV=1.2930E-3 + TT=51.940E-9 .ENDS .model z5v6 D(Is=1.5n Rs=.5 Cjo=185p nbv=3 bv=5.6 Ibv=1m) .MODEL DN2535 NMOS (LEVEL=3 RS=1.05 NSUB=5.0E14 +DELTA=0.1 KAPPA=0.20 TPG=1 CGDO=3.1716E-10 +RD=11 VTO=-1.50 VMAX=1.0E7 ETA=0.0223089 +NFS=6.6E10 TOX=725E-10 LD=1.698E-9 UO=862.425 +XJ=6.4666E-7 THETA=1.0E-5 CGSO=2.50E-9 L=4.0E-6 +W=59E-3) * *Zetex ZVP3310A Spice Model v1.0 Last Revised 23/7/04 * .SUBCKT ZVP3310A 3 4 5 * D G S M1 13 20 5 5 Pmod1 RG 4 2 50 RIN 2 5 1E9 RL 3 5 1.2E8 RD 3 13 Rmod1 5 C1 2 5 55E-12 D1 3 5 Dmod1 D2 3 17 Dmod2 Egs1 2 17 2 5 1 Egt1 2 20 5 21 1 Vgt1 5 22 1 Igt1 5 21 1 Rgt 21 22 Rmod2 1 .MODEL Pmod1 PMOS VTO=-2.1 RS=2 IS=1E-15 KP=0.2 +CBD=35E-12 PB=1 LAMBDA=6E-3 .MODEL Dmod1 D IS=5E-12 RS=1 .MODEL Dmod2 D CJO=20e-12 IS=1e-30 N=10 .MODEL Rmod1 RES (TC1=9e-3 TC2=4.2E-5) .MODEL Rmod2 RES (TC1=-2e-3 TC2=3e-6) .ENDS ZVP3310A .MODEL VP0104 PMOS (LEVEL=3 RS=0.43 NSUB=5.0E14 +DELTA=0.1 KAPPA=0.0411 TPG=-1 CGDO=2.6106E-11 +RD=4.23 VTO=-2.850 VMAX=3.0E6 ETA=0.12098 +NFS=3.384E11 TOX=1.10E-7 LD=1.1400E-9 UO=865.45 +XJ=6.5E-7 THETA=4.063E-5 CGSO=4.2666E-11 L=2.5E-6 +W=0.9E-2) .MODEL VN3515L NMOS (LEVEL=3 RS=0.205 NSUB=5.0E14 +DELTA=0.1 KAPPA=0.20 TPG=1 CGDO=3.1716E-10 +RD=6.5 VTO=1.400 VMAX=1.0E7 ETA=0.0223089 +NFS=6.6E10 TOX=725E-10 LD=1.698E-9 UO=862.425 +XJ=6.4666E-7 THETA=1.0E-5 CGSO=2.50E-9 L=2.0E-6 +W=59E-3 KP=5.5E-6) .SUBCKT FQD8P10 2 1 3 *Nom Temp=25 deg C Dbody 5 7 DbodyMOD Dbreak 7 11 DbreakMOD Lgate 1 9 1.125e-9 Ldrain 2 5 9.664e-10 Lsource 3 7 9.664e-10 RLgate 1 9 11.25 RLdrain 2 5 9.66 RLsource 3 7 9.66 Rgate 9 6 0.5 It 7 17 1 Ebreak 5 11 17 7 -110 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=1.02e-3 TC2=-1.18e-6) .MODEL DbodyMOD D (IS=1.02e-14 N=1 RS=5.78e-2 TRS1=1.01e-5 TRS2=1.0e-7 + CJO=4.78e-10 M=0.437 VJ=0.55 TT=9.72e-8 XTI=9.3 EG=1.18) .MODEL DbreakMOD D (RS=3.0e-2 TRS1=1e-3 TRS2=1e-6) Rdrain 5 16 RdrainMOD 0.347 .MODEL RdrainMOD RES (TC1=7.53e-3 TC2=1.79e-5) M_BSIM3 16 6 7 7 Bsim3 W=0.595 L=2.0e-6 NRS=1 NRD=0 .MODEL Bsim3 PMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=780e-10 XJ=1.4e-6 NCH=1.73e17 + U0=230 VSAT=1.0e5 DROUT=1.0 + DELTA=0.1 PSCBE2=0 RSH=1.098e-4 + VTH0=-3.55 VOFF=-0.16 NFACTOR=1 + LINT=3.05e-7 DLC=3.05e-7 CGSO=1.02e-15 + CGSL=0 CGDO=6.51e-12 CGDL=1.04e-9 + CJ=0 CF=0 CKAPPA=0.2 + KT1=-1.48 KT2=0 UA1=-1.4e-9 + NJ=10) .ENDS .model LSK389A NJF(Beta=37.86m Betatce=-.5 Rd=11 Rs=7 Lambda=4.78m Vto=-0.40 Vtotc=-2.5m Is=35.58f N=1 Cgd=39.9p MJ=0.79 Pb=0.98 Fc=0.5 Cgs=40.7p Kf=0 Af=1 Mfg=Linear_Systems) .MODEL J113 NJF(VTO=-1.2854 BETA=9.25964m BETATCE=-0.5 LAMBDA=3.03839E-2 RD=1.30170 RS=1.30170 CGS=1.05000E-11 CGD=1.20000E-11 PB=5.04493E-1 IS=9.86870E-16 XTI=3 AF=1 FC=0.5 N=1 NR=2 MFG=PHILIPS) .SUBCKT irf9520 1 2 3 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Nov 11, 96 * MODEL FORMAT: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM PMOS LEVEL=1 IS=1e-32 +VTO=-3.41185 LAMBDA=0.0289226 KP=3.46967 +CGSO=3.45033e-06 CGDO=1e-11 RS 8 3 0.167957 D1 1 3 MD .MODEL MD D IS=7.308e-22 RS=0.17 N=1.29916 BV=100 +IBV=10 EG=1 XTI=1 TT=1e-07 +CJO=4.53963e-10 VJ=2.47692 M=0.539653 FC=0.1 RDS 3 1 1e+06 RD 9 1 0.198401 RG 2 7 11.3744 D2 5 4 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=3.45426e-10 VJ=1.57654 M=0.730307 FC=1e-08 D3 5 0 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.4 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 7.65813e-10 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 6 0 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.4 .ENDS irf9520 *** From file FQP3P50.lib **************** Power Discrete MOSFET Electrical Circuit Model ***************** ** Product Name: FQP3P50 ** 500V P-Channel MOSFET ** Model Type: BSIM3V3 **------------------------------------------------------------------------------- .SUBCKT FQP3P50 2 1 3 *Nom Temp=25 deg C Dbody 5 7 DbodyMOD Dbreak 7 11 DbreakMOD Lgate 1 9 1.125e-9 Ldrain 2 5 5.00e-10 Lsource 3 7 9.66e-10 RLgate 1 9 11.25 RLdrain 2 5 5.00 RLsource 3 7 9.66 Rgate 9 6 0.5 It 7 17 1 Ebreak 5 11 17 7 -500 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=8.2e-4 TC2=-1.05e-6) .MODEL DbodyMOD D (IS=1.08e-15 N=1.0 RS=0.152 TRS1=1.0e-6 TRS2=1.1e-7 + CJO=6.52e-10 M=0.42 VJ=0.65 TT=4.39e-7 XTI=3 EG=1.24) .MODEL DbreakMOD D (RS=0.1 TRS1=1e-3 TRS2=1e-6) Rdrain 5 16 RdrainMOD 3.9 .MODEL RdrainMOD RES (TC1=7.31e-3 TC2=1.14e-5) M_BSIM3 16 6 7 7 Bsim3 W=0.86 L=2.0e-6 NRS=1 .MODEL Bsim3 PMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=970e-10 XJ=1.0e-6 NCH=1.1e17 + U0=250 VSAT=5.0e5 DROUT=1.0 + DELTA=0.1 PSCBE2=0 RSH=1.5e-3 + VTH0=-3.55 VOFF=-0.1 NFACTOR=1.1 + LINT=2.7e-8 DLC=2.7e-8 CGSO=1.1e-15 + CGSL=0 CGDO=6.5e-15 CGDL=7.82e-10 + CJ=0 CF=0 CKAPPA=0.2 + KT1=-1.08 KT2=0 UA1=-7.2e-9 + NJ=10 FC=0.5) .ENDS *** From file FQPF9P25(PSPICE MODEL).LIB * **************** Power Discrete MOSFET Electrical Circuit Model ***************** ** Product Name: FQPF9P25 ** P-Channel QFET 250V, -6A, 620mohm and TO-220F ** Model Type: BSIM3V3 **------------------------------------------------------------------------------- .SUBCKT FQPF9P25 2 1 3 *Nom Temp=25 deg C Dbody 5 7 DbodyMOD Dbreak 7 11 DbreakMOD Lgate 1 9 1.12e-9 Ldrain 2 5 0.5e-9 Lsource 3 7 9.10e-10 RLgate 1 9 11.2 RLdrain 2 5 5.0 RLsource 3 7 9.1 Rgate 9 6 0.5 It 7 17 1 Ebreak 5 11 17 7 -275 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=8.8e-4 TC2=-1.09e-6) .MODEL DbodyMOD D (IS=6.5e-12 N=1.5 RS=0.0852 TRS1=1.02e-5 TRS2=5.1e-7 + CJO=1.38e-9 M=0.65 VJ=0.63 TT=3.13e-7 XTI=18 EG=1.18) .MODEL DbreakMOD D (RS=0.1 TRS1=1e-3 TRS2=1e-6) Rdrain 5 16 RdrainMOD 0.456 .MODEL RdrainMOD RES (TC1=7.7e-3 TC2=1.20e-5) M_BSIM3 16 6 7 7 Bsim3 W=2.314 L=2.0e-6 NRS=1 .MODEL Bsim3 PMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=970e-10 XJ=1.4e-6 NCH=1.3e17 + U0=220 VSAT=1e5 DROUT=1.0 + DELTA=0.1 PSCBE2=0 RSH=6.5e-3 + VTH0=-4.05 VOFF=-0.1 NFACTOR=1.1 + LINT=4.17e-7 DLC=4.17e-7 CGSO=1.1e-15 + CGSL=1.0e-15 CGDO=1.06e-14 CGDL=6.25e-10 + CJ=0 CF=0 CKAPPA=0.1 + KT1=-1.35 KT2=0 UA1=-2.61e-9 + NJ=10) .ENDS .MODEL BC638 PNP(IS=4.60p ISE=1.99E-14 ISC=9.45E-17 XTI=3.00 BF=1.85E2 BR=4.28 IKF=9.69E-1 IKR=1.00 XTB=1.5 VAF=1.44E2 VAR=1.97E1 VJE=5.43E-1 VJC=3.62E-1 RE=1.00E-2 RC=2.62E-1 RB=4.84 RBM=1.00E1 IRB=1.62E-1 CJE=1.27E-10 CJC=8.00E-11 .00 FC=5.00E-1 NF=1.19 NR=1.23 NE=1.23 NC=2.00 MJE=4.94E-1 MJC=5.07E-1 TF=1.07n TR=0 ITF=4.53E-1 VTF=9.99E5 XTF=6.31E-1 EG=1.11 VCEO=40 ICRATING=800M MFG=SIEMENS) .MODEL BD135P NPN(IS=4.815E-14 ISE=1.389E-14 ISC=1.295E-13 XTI=3 BF=124.2 BR=13.26 IKF=1.6 IKR=0.29 XTB=1.5 VAF=222 VAR=81.4 VJE=0.7313 VJC=0.5642 RE=0.165 RC=0.096 RB=0.5 RBM=0.5 IRB=1E-06 CJE=1.243E-10 CJC=3.04E-11 XCJC=0.15 FC=0.9359 NF=0.9897 NR=0.9895 NE=1.6 NC=1.183 MJE=0.3476 MJC=0.4371 TF=6.478E-10 TR=1m2 ITF=3.35 VTF=2.648 XTF=29 EG=1.11 VCEO=45 ICRATING=1.5 MFG=PHILIPS) .MODEL D44H11 NPN(IS=7.079646E-14 ISE=2.92884E-11 ISC=3.98107E-13 XTI=3 BF=392.02 BR=67.165 IKF=1.72 IKR=1.58489 XTB=1.77681 VAF=63.5 VAR=58.42 VJE=0.785 VJC=0.5 RE=0.034 RC=0.2 RB=271 RBM=0.361 IRB=5.011872E-6 CJE=8.49E-10 CJC=3.66E-10 XCJC=0.54505 FC=0.5 NF=0.828 NR=0.825 NE=1.72 NC=1.07 MJE=0.387 MJC=0.352 EG=0.958 VCEO=80 ICRATING=10 MFG=FAIRCHILD) .model D45H11 PNP(IS=7.89979e-11 BF=65.9745 NF=0.851012 VAF=10.7084 IKF=10 Ise=4.79702e-14 Ne=4 BR=1.96197 Nr=1.29503 VAR=23.2874 IKR=9.99625 Isc=4.79702e-14 Nc=3.59375 Rb=2.35587 Irb=0.108633 Rbm=0.101928 Re=0.000100027 Rc=0.122304 XTB=0.137608 XTI=1.0316 Eg=1.12218 Cje=1.03083e-09 Vje=0.651747 Mje=0.353069 TF=3.89762e-09 XTF=1.35721 VTF=0.99569 ITF=0.999994 Cjc=5e-10 Vjc=0.42654 Mjc=0.24282 Xcjc=0.803125 FC=0.533457 Cjs=0 Vjs=0.75 Mjs=0.5 TR=4.90984e-07 PTF=0 KF=0 AF=1 Vceo=80 Icrating=10 mfg=On_Semiconductor) ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .SUBCKT tip121 1 2 3 * Model generated on Feb 8, 2004 * Model format: PSpice * Darlington macro model * External node designations * Node 1 -> Collect * Node 2 -> Base * Node 3 -> Emitter Q1 1 2 4 qmodel Q2 1 4 3 q1model 2.80758 D1 3 1 dmodel R1 2 4 10000 R2 4 3 1000 * Default values used in dmodel * EG=1.11 TT=0 BV=infinite .MODEL dmodel d +IS=1e-12 RS=10 N=1 XTI=3 +CJO=0 VJ=0.75 M=0.33 FC=0.5 .MODEL qmodel npn +IS=3.29109e-14 BF=391.787 NF=0.894469 VAF=33.1384 +IKF=0.198445 ISE=1.21403e-10 NE=1.6375 BR=0.1 +NR=1.34795 VAR=135.277 IKR=0.137744 ISC=1.01287e-13 +NC=1.97483 RB=4.90772 IRB=0.200762 RBM=4.90772 +RE=0.0826202 RC=0.413101 XTB=0.584577 XTI=2.92564 EG=1.05 +CJE=2.09731e-10 VJE=0.95 MJE=0.23 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=1.53283e-10 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL q1model npn +IS=3.29109e-14 BF=391.787 NF=0.894469 VAF=33.1384 +IKF=0.198445 ISE=1.21403e-10 NE=1.6375 BR=0.1 +NR=1.34795 VAR=135.277 IKR=0.137744 ISC=1.01287e-13 +NC=1.97483 RB=4.90772 IRB=0.200762 RBM=4.90772 +RE=0.0826202 RC=0.413101 XTB=0.584577 XTI=2.92564 EG=1.05 +CJE=2.09731e-10 VJE=0.95 MJE=0.23 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=0 +VJC=0.95 MJC=0.23 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .ENDS *SRC=BYV27-05;BYV27-5;Diodes;Rectifier <=5A;50V 2A .MODEL BYV27-5 D (IS=176N RS=72.3M N=2 BV=66.6 IBV=1U + CJO=93.4P VJ=.5447 M=.3492 TT=28.8N) * Philips 50 Volt 2 Amp .02 us Si Diode 04-22-1991 ************************************************************************ generic speaker simulation (4 ohm) as published in Stereophile Magazine. Donated by Jaime Arbona, converted to subcircuit form *----------------------------------------------------------------------- .SUBCKT SPEAKER-4 G $N_0002 R_R29 $N_0002 $N_0001 4 R_R30 $N_0003 $N_0002 2.5 R_R31 $N_0004 $N_0002 2.8 C_C9 $N_0001 $N_0005 9.4uf C_C10 G $N_0003 6.6uf R_R32 $N_0006 $N_0005 0.25 L_L16 $N_0004 $N_0007 0.25mH R_R33 $N_0009 $N_0008 50 R_R34 $N_0008 G 19.5 R_R35 $N_0008 $N_0010 0.3 R_R36 $N_0008 $N_0011 0.45 L_L17 $N_0011 $N_0009 0.5mH L_L18 G $N_0010 5mH R_R37 $N_0009 $N_0007 0.35 L_L19 G $N_0006 0.15mH C_C11 G $N_0008 1mf .ENDS ************************************************************************ generic speaker simulation (8 ohm) as published in Stereophile Magazine. Donated by Jaime Arbona, converted to subcircuit form *----------------------------------------------------------------------- .SUBCKT SPEAKER-8 G $N_0002 R_R29 $N_0002 $N_0001 8 R_R30 $N_0003 $N_0002 5 R_R31 $N_0004 $N_0002 5.6 C_C9 $N_0001 $N_0005 4.7uf C_C10 G $N_0003 3.3uf R_R32 $N_0006 $N_0005 0.5 L_L16 $N_0004 $N_0007 0.5mH R_R33 $N_0009 $N_0008 100 R_R34 $N_0008 G 39 R_R35 $N_0008 $N_0010 0.6 R_R36 $N_0008 $N_0011 0.9 L_L17 $N_0011 $N_0009 1mH L_L18 G $N_0010 10mH R_R37 $N_0009 $N_0007 0.7 L_L19 G $N_0006 0.3mH C_C11 G $N_0008 500uf .ENDS .MODEL tip35c npn( +IS=7.88586e-11 BF=256.257 NF=0.951481 VAF=25.9112 +IKF=6.91656 ISE=6.4e-12 NE=3.4 BR=4.49993 +NR=1.08286 VAR=4.40924 IKR=3.69854 ISC=3.9e-13 +NC=3.99 RB=20.929 IRB=0.1 RBM=0.135255 +RE=0.000998231 RC=0.0563125 XTB=0.1 XTI=1 +EG=1.10826 CJE=1e-07 VJE=0.421306 MJE=0.693953 +TF=1e-08 XTF=1.35777 VTF=1.00063 ITF=0.9994 +CJC=5e-10 VJC=0.400277 MJC=0.409924 XCJC=0.803124 +FC=0.720291 CJS=0 VJS=0.75 MJS=0.5 +TR=4.99888e-07 PTF=0 KF=0 AF=1) .MODEL tip36c pnp( +IS=7.88586e-11 BF=256.257 NF=0.951481 VAF=25.9112 +IKF=6.91657 ISE=6.4e-12 NE=3.4 BR=4.49993 +NR=1.08286 VAR=4.40924 IKR=3.69854 ISC=3.9e-13 +NC=3.99 RB=20.929 IRB=0.1 RBM=0.135255 +RE=0.000998231 RC=0.0563123 XTB=0.1 XTI=1 +EG=1.10826 CJE=1e-07 VJE=0.4 MJE=0.735975 +TF=1e-08 XTF=1.35769 VTF=1 ITF=0.99952 +CJC=5e-10 VJC=0.400257 MJC=0.409987 XCJC=0.80312 +FC=0.724857 CJS=0 VJS=0.75 MJS=0.5 +TR=2.03153e-07 PTF=0 KF=0 AF=1) .subckt BY399 A K params: Vrrm=800 Vrsm=800 Ir=5u Irsm=5u Vf=1.2 Ifav=3 Rs=.016 trr=500n Cj=15p Eg=1.11 Xti=3 * Above values are an example for the ***BY399***. Using the symbol * above symbol file allows for direct insertion of other values * according to these data sheet parameters: * * Vrrm Repetitive peak reverse voltage * Ir Leakage current * Vrsm Surge peak reverse voltage / Reverse avalanche breakdown voltage * Irsm Defined at avalanche diodes, otherwise set Irsm = Ir * Vf Forward voltage * Ifav Test current for Vf, usually equal to average forward rectified current * trr Reverse recovery time; for Schottky, set trr=5n * Cj Junction capacitance at 4V * * Activation energy: Eg=1.11 for Si (pn) rectifier, Eg=.69 for Schottky (metal barrier) rectifier * Series resistance: Rs=(Vf@3*Ifav - Vf@Ifav)/(3*Ifav - Ifav) from data sheet curve * Sat.-current temp. exp: Xti=3 for Si (pn) rectifier, Xti=2 for Schottky (metal barrier) rectifier D A K Rectifier .model Rectifier D(Is={Ir/40} Bv={Vrsm*1.05} Ibv={Ir} Vpk=Vrrm N={.8*Vf/25m/(ln(Ifav)-ln(Ir/40))} Rs={Rs} Eg={Eg} Xti={Xti} Iave={Ifav} Cjo={Cj*2} M=.33 Tt={trr} Vp=.5 mfg=Diotec type=Rectifier) .ends .MODEL BF469 NPN(IS=7.974E-15 ISE=2.266E-16 ISC=4.33E-12 XTI=3 BF=122 BR=6.235 IKF=0.01029 IKR=0.02746 XTB=1.5 VAF=25.51 VAR=19.43 VJE=0.4581 VJC=0.197 RE=0.3814 RC=0.439 RB=1 RBM=0.5 IRB=1E-06 CJE=1.742E-11 CJC=5.045E-12 XCJC=0.1041 FC=0.8555 NF=0.993 NR=0.999 NE=1.18 NC=1.397 MJE=0.3092 MJC=0.1947 TF=7.073E-10 TR=1E-08 PTF=0 ITF=0.1495 VTF=6.144 XTF=289.5 EG=1.11 KF=1E-9 AF=1 MFG=PHILIPS) .MODEL BF470 PNP(IS=9.124E-15 ISE=1.672E-15 ISC=2.139E-13 XTI=3 BF=198.2 BR=1.256 IKF=0.13 IKR=0.1 XTB=1.5 VAF=465.9 VAR=13 VJE=0.8484 VJC=0.6298 RE=0.635 RC=1.42 RB=5 RBM=0.5 IRB=1E-06 CJE=1.447E-11 CJC=8.483E-12 XCJC=0.619 FC=0.99 NF=0.9904 NR=0.99 NE=1.527 NC=1.08 MJE=0.3884 MJC=0.4561 TF=1.38E-09 TR=1E-32 PTF=0 ITF=0.065 VTF=2 XTF=21.78 EG=1.11 KF=1E-9 AF=1 MFG=PHILIPS) .SUBCKT tlv431 6 7 11 * A K FDBK .MODEL DCLAMP D (IS=13.5N RS=25M N=1.59 + CJO=45P VJ=.75 M=.302 TT=50.4N BV=36V IBV=1MA) .MODEL DCL2 D RS=660K V1 1 6 1.24 R1 6 2 15.6 C1 2 6 .5U R2 2 3 100 C2 3 4 1.3U R3 4 6 8 G2 6 8 3 6 .86 D1 5 8 DCLAMP D2 7 8 DCLAMP D4 6 8 DCLAMP *V4 5 6 2 V4 5 6 1.2 G1 6 2 1 11 0.11 VCLAMP 9 6 14.5 D3 7 9 DCL2 * Add-ons Rinp 11 6 8e6 Din1 11 7 DCLAMP Din2 6 11 DCLAMP DKA 6 7 DCLAMP .ENDS .MODEL Qmjl4302a pnp +IS=8.52181e-11 BF=505.26 NF=1.14612 VAF=15.6851 +IKF=2.86699 ISE=3.82966e-09 NE=2.09196 BR=50.526 +NR=1.18655 VAR=1.41005 IKR=9.95655 ISC=4.51392e-11 +NC=1.28018 RB=98.7069 IRB=4.30971e-06 RBM=0.110355 +RE=0.00577433 RC=0.0288716 XTB=0.00344757 XTI=0.00948369 +EG=1.05 CJE=1.42406e-08 VJE=0.99 MJE=0.23 +TF=2.22092e-09 XTF=15.6824 VTF=100000 ITF=63.5289 +CJC=5.00002e-10 VJC=0.893622 MJC=2.3e-21 XCJC=1 +FC=0.1 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL Qmjl4281a npn +IS=9.94641e-11 BF=191.836 NF=1.11524 VAF=24.7449 +IKF=5.75399 ISE=6.4507e-12 NE=3.39407 BR=4.35182 +NR=1.1764 VAR=4.25175 IKR=6.61715 ISC=3.89999e-13 +NC=3.99 RB=4.37715 IRB=0.00966879 RBM=1e-15 +RE=0.00608852 RC=0.0434329 XTB=0.661303 XTI=1.00355 +EG=1.05 CJE=9.04931e-09 VJE=0.99 MJE=0.844324 +TF=1.6665e-09 XTF=1000 VTF=17023.9 ITF=152.472 +CJC=8.80163e-10 VJC=0.942802 MJC=0.23183 XCJC=1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .model ZVP3306A VDMOS (pchan Rg=65 Vto=-3 Kp=80m + Rs=4 Ksubthres=0.15 Mtriode=0.5 Rd=3 Lambda=10m + Bex=-2.3 Vtotc=+6m tksubthres1=4m Trs1=3.5m Trd1=8m + Cgdmax=10p Cgdmin=5p a=0.5 Cgs=80p Cjo=25p + m=0.5 Vj=0.75 N=1.7 Is=5n Eg=1.2 Rb=0.15 Trb1=6m + Vds=-60 Ron=14 Qg=1.5nC mfg=DioIncIH1910) *ZETEX BC639 Spice Model v2.0 Last Revised 24/2/05 * .MODEL BC639 NPN IS =6E-14 NF =0.99 BF =250 IKF=0.9 +NK=0.7 VAF=270 ISE=1E-14 NE =1.2 NR =0.98 BR =30 IKR=0.5 +VAR=27 ISC=1.2e-13 NC =1.2 RB =0.2 RE =0.08 RC =0.08 RCO=5 +GAMMA=5E-9 CJC=15.9E-12 MJC=0.4 VJC=0.51 CJE=108E-12 +MJE=0.35 VJE=0.7 TF =0.8E-9 TR =55e-9 XTB=1.4 QUASIMOD=1 .MODEL mj15022 npn +IS=1e-09 BF=79.4982 NF=1.4473 VAF=30.0701 +IKF=3.36897 ISE=1e-16 NE=4 BR=1.00687 +NR=1.5 VAR=281.691 IKR=5.74838 ISC=1e-16 +NC=2.99908 RB=9.258 IRB=0.1 RBM=0.1 +RE=0.000423263 RC=0.0582865 XTB=1.13016 XTI=1.22153 +EG=1.206 CJE=6.07696e-09 VJE=0.4 MJE=0.448052 +TF=1e-08 XTF=1000 VTF=1.06747 ITF=0.747516 +CJC=5e-10 VJC=0.95 MJC=0.344125 XCJC=0.1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL mj15024 npn +IS=1e-09 BF=80.9237 NF=1.41415 VAF=29.8965 +IKF=3.58072 ISE=1e-16 NE=4 BR=1.00135 +NR=1.5 VAR=281.892 IKR=5.80356 ISC=1e-16 +NC=2.99908 RB=9.25367 IRB=0.1 RBM=0.1 +RE=0.00042229 RC=0.0571126 XTB=1.12257 XTI=1.22156 +EG=1.206 CJE=6.19402e-09 VJE=0.4 MJE=0.457365 +TF=1e-08 XTF=1000 VTF=1.07131 ITF=0.743213 +CJC=5e-10 VJC=0.95 MJC=0.344125 XCJC=0.1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 **************** Power Discrete MOSFET Electrical Circuit Model ***************** ** Product Name: FQA62N25C ** 200V N-Channel MOSFET and TO-3PN ** Model Type: BSIM3V3 **------------------------------------------------------------------------------- .SUBCKT FQA62N25C 2 1 3 *Nom Temp=25 deg C Dbody 7 5 DbodyMOD Dbreak 5 11 DbreakMOD Ebreak 11 7 17 7 250 Lgate 1 9 1.125e-9 Ldrain 2 5 1.440e-9 Lsource 3 7 1.658e-9 RLgate 1 9 11.25 RLdrain 2 5 14.40 RLsource 3 7 16.58 Rgate 9 6 0.5 It 7 17 1 Rbreak 17 7 RbreakMOD 1 .MODEL RbreakMOD RES (TC1=1.12e-3 TC2=-1.02e-6) .MODEL DbodyMOD D (IS=1.02e-11 N=1 RS=2.82e-3 TRS1=2.64e-3 TRS2=1.0e-6 + CJO=7.78e-9 M=0.38 VJ=0.47 TT=3.47e-7 XTI=3 EG=1.10) .MODEL DbreakMOD D (RS=100e-3 TRS1=1e-3 TRS2=1.0e-6) Rdrain 5 16 RdrainMOD 0.025 .MODEL RdrainMOD RES (TC1=7.2e-3 TC2=6.62e-6) M_BSIM3 16 6 7 7 Bsim3 W=5.25 L=2.0e-6 NRS=1 .MODEL Bsim3 NMOS (LEVEL=7 VERSION=3.1 MOBMOD=3 CAPMOD=2 PARAMCHK=1 NQSMOD=0 + TOX=600e-10 XJ=1.4e-6 NCH=1.3e17 + U0=700 VSAT=3.5e5 DROUT=1.0 + DELTA=0.10 PSCBE2=0 RSH=1.09e-3 + VTH0=3.80 VOFF=-0.1 NFACTOR=1.1 + LINT=1.8e-7 DLC=1.8e-7 FC=0.5 + CGSO=1.05e-13 CGSL=0 CGDO=1.0e-13 + CGDL=6.64e-10 CJ=0 CF=0 + CKAPPA=0.2 KT1=-2.08 KT2=0 + UA1=3.62e-9 NJ=10) .ENDS *************** Power Discrete MOSFET Thermal Model ******************** ** Product: TO-3PN **---------------------------------------------------------------------- .SUBCKT FQA62N25C_THERMAL TH TL CTHERM1 TH 6 1.94e-5 CTHERM2 6 5 8.58e-3 CTHERM3 5 4 1.84e-2 CTHERM4 4 3 2.92e-2 CTHERM5 3 2 3.62e-1 CTHERM6 2 TL 4.82e-1 RTHERM1 TH 6 9.70e-4 RTHERM2 6 5 8.70e-3 RTHERM3 5 4 9.70e-3 RTHERM4 4 3 7.50e-2 RTHERM5 3 2 8.60e-2 RTHERM6 2 TL 2.20e-1 .ENDS FQA62N25C_THERMAL **--------------------------------------------------------------------- ** Creation: Mar.-16-2010 Rev.:0.0 ** Fairchild Semiconductor ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** .MODEL Qmje15029 pnp +IS=2.19799e-10 BF=386.919 NF=1.1687 VAF=10 +IKF=0.645427 ISE=1e-08 NE=2.1839 BR=0.1 +NR=1.5 VAR=67.6508 IKR=2.05316 ISC=1e-08 +NC=2.10241 RB=2.47154 IRB=0.1 RBM=0.1 +RE=0.0001 RC=0.0418264 XTB=0.1 XTI=1 +EG=1.05 CJE=1.42139e-10 VJE=0.4 MJE=0.243206 +TF=1.08569e-09 XTF=5.9818 VTF=3.50725 ITF=0.001 +CJC=4.93339e-10 VJC=0.4 MJC=0.394058 XCJC=0.797959 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=9.57121e-06 PTF=0 KF=0 AF=1 * Model generated on Feb 1, 2004 * Model format: PSpice * Vintage transistors .MODEL 2SB688 PNP(Bf=70 Br=1 Is=73f Eg=1.11 Cjc=4.8p Cje=10p Vaf=100 Tf=1.923n Tr=10n Mjc=.330 Vjc=.75 Mje=.33 Vje=.75 Cjs=2p ) * bad model: *.MODEL Q2SC5198 NPN(IS=10.000E-15 BF=105 VAF=100 IKF=10.000E-3 XTB=1.5 BR=.1001 VAR=100 IKR=10.000E-3 ISC=10.000E-15 CJE=2.0000E-12 CJC=412.95E-12 MJC=.33333 TF=608.00E-12 XTF=10 VTF=10 ITF=1 mfg=Toshiba) .MODEL LSJ689B PJF (LEVEL=1 BETA=30E-4 VTO=-1.75 LAMBDA=2E-3 + IS=4.5E-16 N=1 RD=99 RS=37 CGD=6E-12 CGS=11E-12 PB=0.25 MJ=0.3 FC=0.5 + KF=2E-18 AF=1 XTI=0) * LSK489B IDSS = 8.64mA Rds = 147 .MODEL LSK489B NJF (LEVEL=1 BETA=19.0E-4 VTO=-2.68 LAMBDA=1E-3 + IS=3E-15 N=1 RD=75 RS=65 CGD=3E-12 CGS=8E-12 PB=0.8 FC=0.5 + KF=1.5e-18 AF=1 XTI=0) .MODEL Qmje15034 npn +IS=3.92866e-12 BF=260.938 NF=1.02215 VAF=15.3399 +IKF=0.160087 ISE=1e-08 NE=2.54491 BR=26.0938 +NR=1.10885 VAR=153.399 IKR=1.60087 ISC=1e-08 +NC=1.89024 RB=0.41209 IRB=0.1 RBM=0.41209 +RE=0.0001 RC=0.208002 XTB=0.897431 XTI=1.39234 +EG=1.206 CJE=1.61534e-09 VJE=0.698417 MJE=0.382854 +TF=1.03079e-09 XTF=1000 VTF=100000 ITF=42.9041 +CJC=1.04458e-10 VJC=0.441587 MJC=0.23 XCJC=1 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL Qmje15035 pnp +IS=5.81508e-15 BF=313.373 NF=0.85 VAF=40.5017 +IKF=0.897023 ISE=6.74258e-16 NE=1.04249 BR=0.958017 +NR=0.894461 VAR=148.639 IKR=7.05393 ISC=6.74258e-16 +NC=2.84461 RB=3.62039 IRB=0.1 RBM=0.1 +RE=0.000923293 RC=0.233799 XTB=2.92628 XTI=1.01325 +EG=1.17461 CJE=1.5597e-09 VJE=0.99 MJE=0.554057 +TF=1.35882e-09 XTF=1000 VTF=467.207 ITF=58.3338 +CJC=1.58888e-10 VJC=0.4 MJC=0.23 XCJC=0.786287 +FC=0.8 CJS=0 VJS=0.75 MJS=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL Qmje15034 ako:mje15034 .MODEL Qmje15035 ako:mje15035 .MODEL DZT5551 NPN IS=6.5E-15 NF=1 BF=110 VAF=288 ISE=1.0E-14 + NE=1.5 NR=1 BR=4.5 VAR=70 ISC=3E-12 NC=1.35 RC=0.5 RB =0.26 RE =0.23 + CJC=6.1E-12 MJC=0.31 VJC=0.4 CJE=57E-12 MJE=0.35 VJE=0.8 TF=0.2E-9 + TR=1.5E-6 XTB=1.4 QUASIMOD=1 RCO=170 VO=35 GAMMA=2.2E-7 .MODEL 2SA1859 pnp (IS=600f BF=162 NF=1 VAF=300 IKF=18 ISE=1u NE=10 NK=1.1 BR=1.96197 NR=1.29503 VAR=23.2874 IKR=9.99625 ISC=4.79702e-14 NC=3.59375 RB=6.5 IRB=0.108633 RBM=0.101928 RE=0.000100027 RC=0.122304 XTB=0.137608 XTI=1.0316 EG=1.32 CJE=1.495n VJE=0.651747 MJE=0.353069 TF=1.7n XTF=1.35721 VTF=0.99569 ITF=0.999994 CJC=68p VJC=0.42654 MJC=0.24282 XCJC=0.803125 FC=0.533457 CJS=0 VJS=0.75 MJS=0.5 TR=188.8n PTF=0 KF=0 AF=1 Vceo=180 Icrating=2A mfg=Sanken) .MODEL 2SC4883 npn (IS=725f BF=162 NF=1 VAF=150 IKF=18 ISE=1u NE=10 NK=1.2 BR=1.97064 NR=1.50008 VAR=22.902 IKR=35.9467 ISC=4.75e-12 NC=3.59375 RB=7.5 IRB=0.1 RBM=0.1 RE=0.0001 RC=0.130733 XTB=0.337319 XTI=1.40625 EG=1.31 CJE=1.2n VJE=0.651779 MJE=0.35303 TF=1.2n XTF=1.35721 VTF=0.995654 ITF=1 CJC=90p VJC=0.429208 MJC=0.35114 XCJC=0.803125 FC=0.533449 CJS=0 VJS=0.75 MJS=0.5 TR=85n PTF=0 KF=0 AF=1 Vceo=180 Icrating=2A mfg=Sanken) * fetched on 2017/4/7 from http://www.onsemi.com/pub/Collateral/TIP122.LIB .SUBCKT tip122 1 2 3 * Model generated on Dec 19, 2003 * Model format: PSpice * Darlington macro model * External node designations * Node 1 -> Collect * Node 2 -> Base * Node 3 -> Emitter Q1 1 2 4 qmodel Q2 1 4 3 q1model 2.7545 D1 3 1 dmodel R1 2 4 10000 R2 4 3 1000 * Default values used in dmodel * EG=1.11 TT=0 BV=infinite .MODEL dmodel d +IS=1e-12 RS=10 N=1 XTI=3 +CJO=0 VJ=0.75 M=0.33 FC=0.5 .MODEL qmodel npn +IS=1.15528e-13 BF=387.828 NF=0.937439 VAF=30 +IKF=0.270029 ISE=5.36359e-11 NE=1.54544 BR=0.1 +NR=1.5 VAR=134.979 IKR=0.109764 ISC=1.00329e-13 +NC=1.97549 RB=4.9473 IRB=0.200762 RBM=4.9473 +RE=0.0964614 RC=0.482307 XTB=0.580269 XTI=2.92642 EG=1.05 +CJE=2.08206e-10 VJE=0.945586 MJE=0.23 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=1.67927e-10 +VJC=0.754327 MJC=0.289398 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .MODEL q1model npn +IS=1.15528e-13 BF=387.828 NF=0.937439 VAF=30 +IKF=0.270029 ISE=5.36359e-11 NE=1.54544 BR=0.1 +NR=1.5 VAR=134.979 IKR=0.109764 ISC=1.00329e-13 +NC=1.97549 RB=4.9473 IRB=0.200762 RBM=4.9473 +RE=0.0964614 RC=0.482307 XTB=0.580269 XTI=2.92642 EG=1.05 +CJE=2.08206e-10 VJE=0.945586 MJE=0.23 TF=1e-09 +XTF=1 VTF=10 ITF=0.01 CJC=0 +VJC=0.754327 MJC=0.289398 XCJC=0.9 FC=0.5 +TR=1e-07 PTF=0 KF=0 AF=1 .ENDS .model LSJ74A PJF(Beta=38m Betatce=-0.5 Vto=-.38 Vtotc=-2.5m Lambda=3m Is=12980f Xti=3 Isr=0 Nr=2 Alpha=10u N=1 Rd=7.748 Rs=7.748 Cgd=85.67p Cgs=78.27p Fc=0.5 Vk=100 M=324m Pb=0.3905 Kf=26640f Mfg=Linear_Systems) .model LSJ74B PJF(Beta(=9m Betatce=-0.5 Vto=-0.84 Vtotc=-2.5m Lambda=3m Is=6.32f RD=4.95 RS=4.45 CGD=115p CGS=52.5P Fc=0.5 Pb=1 Kf=0 Mfg=Linear_Systems) .model LSJ74C PJF(Beta=10.6m Betatce=-0.5 Vto=-1.3 Vtotc=-2.5m Lambda=4m Is=12980f Xti=0 Nr=2 Alpha=10u N=1 Rd=7.748 Rs=7.748 Cgd=85.67p Cgs=78.27p Fc=0.5 Vk=100 M=324m Pb=0.3905 Kf=26640f Mfg=Linear_Systems) .model LSJ74D PJF(Beta=9.4m Betatce=-0.5 Vto=-1.76 Vtotc=-2.5m Lambda=3.8m Is=12980f Xti=3 Nr=2 Alpha=10u N=1 .MODEL Q2SD2704K NPN +IS=250.00E-15 +BF=2.3219E3 +VAF=100 +IKF=25.778E-3 +ISE=270.34E-15 +NE=1.8069 +BR=45.088 +VAR=100 +IKR=9.4796 +ISC=411.09E-15 +NC=2.0254 +NK=.54182 +RE=.4 +RB=3.1823 +RC=58.585E-3 +CJE=8.7706E-12 +MJE=.66324 +CJC=15.709E-12 +MJC=.53302 +TF=3.8352E-9 +XTF=32.147 +VTF=472.13 +ITF=85.294 +TR=7.0574E-9 +XTB=1.5000 .model BUZ11 VDMOS(Rg=3 Rd=5m Rs=1m Vto=3.0 Kp=9 + Cgdmax=2n Cgdmin=.15n Cgs=0.8n Cjo=1n Is=2.3p Rb=6m + mfg=Fairchild Vds=50 Ron=40m Qg=27n) .SUBCKT BUZ10_SIE 3 1 2 LS 5 2 7N LD 95 3 5N RG 4 11 5.5M RS 5 76 51M D10 76 95 DREV .MODEL DREV D CJO=0.65N RS=20M TT=2.2N IS=300P BV=50 M10 95 11 76 76 MBUZ .MODEL MBUZ NMOS VTO=3.287 KP=19.15 M2 11 95 8 8 MSW .MODEL MSW NMOS VTO=0.001 KP=5 M3 95 11 8 8 MSW COX 11 8 0.5N DGD 8 95 DCGD .MODEL DCGD D CJO=0.5N M=0.513 VJ=1.098 CGS 76 11 0.7N LG 4 1 7N .ENDS .model IRF510 VDMOS(Rg=3 Vto=3.8 Rd=200m Rs=54m Rb=250m lambda=.01 Kp=1.3 Cgdmax=.3n Cgdmin=.08n Cgs=.1n Cjo=.17n Is=17p mfg=International_Rectifier Vds=100 Ron=540m Qg=8.3n) .model BUZ10DRK VDMOS(Rg=3 Vto=3.5 Rd=200m Rs=54m Rb=250m lambda=.01 Kp=11 Cgdmax=1500p Cgdmin=500p Cgs=.1n Cjo=.17n Is=17p mfg=International_Rectifier Vds=50 Ron=540m Qg=8.3n) *Feb 16, 2010 *Doc. ID: 90166, Rev. A *File Name: part irf520_PS.txt and part irf520_PS.spi *This document is intended as a SPICE modeling guideline and does not *constitute a commercial product data sheet. Designers should refer to the *appropriate data sheet of the same number for guaranteed specification *limits. .SUBCKT irf520 1 2 3 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on Apr 24, 96 * Model format: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=3.61397 LAMBDA=0.00572642 KP=3.9143 +CGSO=3.28344e-06 CGDO=1.0112e-11 RS 8 3 0.171045 D1 3 1 MD .MODEL MD D IS=7.10668e-11 RS=0.0302634 N=1.21428 BV=100 +IBV=0.00025 EG=1 XTI=2.99378 TT=2.27818e-09 +CJO=5.01988e-10 VJ=0.565258 M=0.378444 FC=0.5 RDS 3 1 4e+06 RD 9 1 0.01473 RG 2 7 1.34402 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=4.14565e-10 VJ=0.5 M=0.640575 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.4 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 6.23795e-10 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.4 .ENDS *Feb 22, 2010 *Doc. ID: 90225, Rev. A *File Name: part irf830_sihf830_PS.txt and part irf830_sihf830_PS.spi *This document is intended as a SPICE modeling guideline and does not *constitute a commercial product datasheet. Designers should refer to the *appropriate data sheet of the same number for guaranteed specification *limits. .SUBCKT irf830 1 2 3 ************************************** * Model Generated by MODPEX * *Copyright(c) Symmetry Design Systems* * All Rights Reserved * * UNPUBLISHED LICENSED SOFTWARE * * Contains Proprietary Information * * Which is The Property of * * SYMMETRY OR ITS LICENSORS * *Commercial Use or Resale Restricted * * by Symmetry License Agreement * ************************************** * Model generated on May 21, 96 * Model format: SPICE3 * Symmetry POWER MOS Model (Version 1.0) * External Node Designations * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=3.86308 LAMBDA=0.00289944 KP=2.00897 +CGSO=5.55536e-06 CGDO=1e-11 RS 8 3 0.0001 D1 3 1 MD .MODEL MD D IS=3.21167e-09 RS=0.018759 N=1.44803 BV=500 +IBV=0.00025 EG=1.2 XTI=3.01692 TT=0 +CJO=5.33099e-10 VJ=3.77417 M=0.9 FC=0.5 RDS 3 1 2e+07 RD 9 1 1.27635 RG 2 7 3.87074 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=1.01524e-09 VJ=1.43239 M=0.9 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.527364 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 1.01524e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.527364 .ENDS ******************************** * Copyright: * * Vishay Intertechnology, Inc. * ******************************** *Nov 27, 2017 *ECN S17-1757, Rev. A *File Name: SiHP5N50D_PS_RC.txt and SiHP5N50D_PS_RC.lib *This document is intended as a SPICE modeling guideline and does not *constitute a commercial product datasheet. Designers should refer to the *appropriate datasheet of the same number for guaranteed specification *limits. .SUBCKT SiHP5N50D D G S M1 3 GX S S NMOS W= 563000u L= 2u M2 S GX S D PMOS W= 563000u L= 0.81u M2B S GX S 3 PMOS2 W= 563000u L= .85u R1 4 3 6.006e-01 TC=2.0250e-02,9.9802e-05 J1 D S 4 JD 563000u .MODEL JD NJF (VTO = -1.909e+01 BETA = 9.511e-02 LAMBDA = 1.998e-02 +BETATCE = -.819e-02 VTOTC = -0.099 IS = 1e-18 N = 10 ) CGS GX S 1.000e-13 CGD GX D 2.887e-12 RG G GY 1m RTCV 100 S 1e6 TC=4.223e-03,0 ETCV GX GY 100 200 1 ITCV S 100 1u VTCV 200 S 1 DBD S D DBD 563000u **************************************************************** .MODEL NMOS NMOS ( LEVEL = 3 TOX = 10e-8 + RS = 0 KP = 4.563e-06 NSUB = 9.474e+16 + KAPPA = 8.523e-01 NFS = 7.300e+11 + LD = 0 IS = 0 TPG = 1 ) *************************************************************** .MODEL PMOS PMOS ( LEVEL = 3 TOX = 10e-8 +NSUB = 7.745e+14 IS = 0 TPG = -1 ) .MODEL PMOS2 PMOS ( LEVEL = 3 TOX = 10e-8 +NSUB = 3e13 IS = 0 TPG = -1 ) **************************************************************** .MODEL DBD D ( +FC = 0.1 TT = 2.200e-06 T_measured = 25 BV = 501 +RS = 8.985e-03 N = 1.627e+00 IS = 1.356e-08 +EG = 1.204e+00 XTI = 6.532e-01 TRS1 = 2.849e-03 +CJO = 1.055e-09 VJ = 6.310e-01 M = 5.867e-01 ) .ENDS * source COMPONENT GENERATOR .SUBCKT SiHP5N50D_PS_RC D G S PARAMS: C2=1000 R1=1M C3=1000 R2=1M C4=1000 R3=1M + C5=1000 R4=1M R5=1M C1=1000 R_RT5 j-c-Temp-Tank N1122006 185.3115m TC=0,0 C_CF7 0 N1120938 13.8681m TC=0,0 G_G7 0 JUNCTION-TEMPERATURE-1RC VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } C_C10 N94536 N94151 {C4} TC=0,0 C_C12 N95722 N95798 {C2} TC=0,0 C_C5 N92368 N92773 {C2} TC=0,0 C_CT5 j-c-Temp-Tank N1122006 14.0284m TC=0,0 V_V_Gate G GATE 0VDC C_C8 N94061 N94123 {C2} TC=0,0 R_R10 N94536 N94151 {R4} TC=0,0 R_R5 N92368 N92773 {R2} TC=0,0 C_CT8 N1122014 N1122030 157.9566m TC=0,0 C_C3 N91434 N91125 {C2} TC=0,0 R_R12 N95722 N95798 {R2} TC=0,0 R_R8 N94061 N94123 {R2} TC=0,0 C_CT7 N1122010 N1122014 695.1512u TC=0,0 R_R3 N91434 N91125 {R2} TC=0,0 R_RF8 N1120944 N1120948 813.0066m TC=0,0 G_G6 0 j-c-Temp-Tank VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } C_C1 JUNCTION-TEMPERATURE-1RC N89014 {C1} TC=0,0 R_RF5 j-c-Temp-Filter N1120932 64.2629m TC=0,0 C_C13 N95798 N95860 {C3} TC=0,0 C_C9 N94123 N94536 {C3} TC=0,0 R_R13 N95798 N95860 {R3} TC=0,0 R_RF7 N1120938 N1120944 144.7984m TC=0,0 R_RT8 N1122014 N1122030 313.1041m TC=0,0 R_R9 N94123 N94536 {R3} TC=0,0 C_CF5 0 j-c-Temp-Filter 2.1020m TC=0,0 C_C4 JUNCTION-TEMPERATURE-3RC N92368 {C1} TC=0,0 C_CF6 0 N1120932 7.1067m TC=0,0 C_C14 N95860 N96370 {C4} TC=0,0 C_C11 JUNCTION-TEMPERATURE-5RC N95722 {C1} TC=0,0 C_C7 JUNCTION-TEMPERATURE-4RC N94061 {C1} TC=0,0 R_R1 JUNCTION-TEMPERATURE-1RC N89014 {R1} TC=0,0 C_C2 JUNCTION-TEMPERATURE-2RC N91434 {C1} TC=0,0 R_R4 JUNCTION-TEMPERATURE-3RC N92368 {R1} TC=0,0 R_RF6 N1120932 N1120938 178.0363m TC=0,0 R_R14 N95860 N96370 {R4} TC=0,0 R_R11 JUNCTION-TEMPERATURE-5RC N95722 {R1} TC=0,0 C_CT6 N1122006 N1122010 73.1232m TC=0,0 R_R7 JUNCTION-TEMPERATURE-4RC N94061 {R1} TC=0,0 R_R2 JUNCTION-TEMPERATURE-2RC N91434 {R1} TC=0,0 C_C15 N96370 N95888 {C5} TC=0,0 V_V9 N92392 0 {TEMP} R_RT7 N1122010 N1122014 46.1446m TC=0,0 C_CF8 0 N1120944 33.1349m TC=0,0 V_V_Source SOURCE S 0VDC V_V11 N95888 0 {TEMP} V_V10 N94151 0 {TEMP} X_U1 DRAIN GATE SOURCE SIHP5N50D R_R15 N96370 N95888 {R5} TC=0,0 V_V8 N91125 0 {TEMP} C_C6 N92773 N92392 {C3} TC=0,0 V_V4 N1122030 0 {TEMP} G_G4 0 j-c-Temp-Filter VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } G_G9 0 JUNCTION-TEMPERATURE-3RC VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } R_R6 N92773 N92392 {R3} TC=0,0 G_G11 0 JUNCTION-TEMPERATURE-5RC VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } V_V7 N89014 0 {TEMP} G_G10 0 JUNCTION-TEMPERATURE-4RC VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } G_G8 0 JUNCTION-TEMPERATURE-2RC VALUE { + (V(Drain)*I(V_V_Drain)+V(Gate)*I(V_V_Gate)+V(Source)*I(V_V_Source)) } V_V_Drain D DRAIN 0VDC R_RT6 N1122006 N1122010 655.4398m TC=0,0 V_V6 N1120948 0 {TEMP} .ENDS .SUBCKT irf630 1 2 3 * Node 1 -> Drain * Node 2 -> Gate * Node 3 -> Source M1 9 7 8 8 MM L=100u W=100u * Default values used in MM: * The voltage-dependent capacitances are * not included. Other default values are: * RS=0 RD=0 LD=0 CBD=0 CBS=0 CGBO=0 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=3.90614 LAMBDA=0 KP=2.70091 +CGSO=7.25845e-06 CGDO=1e-11 RS 8 3 0.0001 D1 3 1 MD .MODEL MD D IS=2.59955e-15 RS=0.0232241 N=0.818263 BV=200 +IBV=0.00025 EG=1 XTI=2.54918 TT=0 +CJO=6.35847e-10 VJ=5 M=0.772431 FC=0.5 RDS 3 1 8e+06 RD 9 1 0.169992 RG 2 7 4.09017 D2 4 5 MD1 * Default values used in MD1: * RS=0 EG=1.11 XTI=3.0 TT=0 * BV=infinite IBV=1mA .MODEL MD1 D IS=1e-32 N=50 +CJO=1.28188e-09 VJ=1.20026 M=0.9 FC=1e-08 D3 0 5 MD2 * Default values used in MD2: * EG=1.11 XTI=3.0 TT=0 CJO=0 * BV=infinite IBV=1mA .MODEL MD2 D IS=1e-10 N=0.413904 RS=3e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 1.2819e-09 FI1 7 9 VFI1 -1 VFI1 11 6 0 RCAP 6 10 1 D4 0 6 MD3 * Default values used in MD3: * EG=1.11 XTI=3.0 TT=0 CJO=0 * RS=0 BV=infinite IBV=1mA .MODEL MD3 D IS=1e-10 N=0.413904 .ENDS .model 2SD1047 NPN ( +IS = 4.31p NF = 1.0 BF = 100 VAF = 600 +ISE = 170p NE = 1.7 IKF = 10 NK = 0.64 +RC = 10m RE = 90m RB = 6.0 RBM = 0.6 IRB = 1.45m +ISC = 1.5n NR = 1.0 BR = 8.6 VAR = 50 NC = 2.0 +CJC = 810p VJC = 0.5 MJC = 0.41 TF = 10.8n VTF = 10 +CJE = 100p VJE = 0.5 MJE = 0.5 ITF = 50 XTF = 12.8 +RCO = 0.5 VO = 35 GAMMA = 10n QUASIMOD = 1 +EG = 1.1 TR = 300n XTB = 0.75 ) .model 2SB817 PNP ( +IS = 4.7p NF = 1.0 BF = 109 VAF = 120 +ISE = 28p NE = 1.5 IKF = 40 NK = 0.95 +RC = 10m RE = 0.12 RB = 6.0 RBM = 0.6 IRB = 960u +ISC = 180p NR = 1.0 BR = 14.8 VAR = 30 NC = 1.5 +CJC = 1.1n VJC = 0.5 MJC = 0.41 TF = 9.4n VTF = 10 +CJE = 100p VJE = 0.711 MJE = 0.304 ITF = 50 XTF = 21.5 +RCO = 0.5 VO = 25 GAMMA = 10n QUASIMOD = 1 +EG = 1.02 TR = 300n XTB = 1.22 ) .MODEL KTD1047 ako:2SD1047 .MODEL KTB817 ako:2SB817