*------------------------------------------------------------------- *SRC=BAS70TW;DI_BAS70TW;Diodes;Si; 70.0V 70.0mA 5.00ns Diodes Inc. Schottky diode, tripple, one node of three .MODEL BAS70TW D ( IS=99.5p RS=0.600 BV=70.0 IBV=10.0u + CJO=2.00p M=0.333 N=1.70 TT=7.20n ) *------------------------------------------------------------------- *------------------------------------------------------------------- * INA826 ***************************************************************************** * (C) Copyright 2013 Texas Instruments Incorporated. All rights reserved. ***************************************************************************** ** This model is designed as an aid for customers of Texas Instruments. ** TI and its licensors and suppliers make no warranties, either expressed ** or implied, with respect to this model, including the warranties of ** merchantability or fitness for a particular purpose. The model is ** provided solely on an "as is" basis. The entire risk as to its quality ** and performance is with the customer ***************************************************************************** * Released by: Analog eLab Design Center, Texas Instruments Inc. * Part: INA826 * Date: 2011-09-12 * Model Type: All In One * Simulator: TINA-TI * Simulator Version: 9 SF-TI * EVM Order Number: N/A * EVM Users Guide: N/A * Datasheet: SBOS562 – September 2011 * * Model Version 1.0: * ***************************************************************************** * * Updates: * * Version 1.0 : Release to Web * ***************************************************************************** * * INA826 SUBCIRCUIT * Precision instrumentation amplifier * Model designer: Designsoft * ** source INA826 ***************************************************************************** .SUBCKT INA826 IN+ IN- VDD GND OUT REF RG- RG+ XT5 VB1 21 21 JPF_0 XT2 IN- 23 23 JPF_0 XT3 VB2 23 23 JPF_0 XBias IAVDD VDD VNEG GND Bias VM Vt0pi Vb Veps Vt0p Vt0 IGND Vnoise Vt0i Bias_0 XU1 VM Neg_25 IGND Bias IAVDD OUT_26 VDD Vb GND Vt0pi Vt0i Veps VNEG Vnoise + Input_0 XOutput VM Neg_27 IGND Bias IAVDD OUT VDD Veps GND Vt0p Vt0 Plus VNEG Vnoise + Output_0 XT1 Neg_25 VB2 RG- PNP_INN_0 + PARAMS: AREA=4 Cc3 OUT_26 Neg_25 3P Cc4 OUT_1 Neg 3P XD14 GND VB2 D_D2_0 XD13 VB2 VDD D_D2_0 XD12 GND VB1 D_D2_0 XD11 VB1 VDD D_D2_0 XT6 IN+ 21 21 JPF_0 Cemi2 VB2 GND 4.9P XD10 VB2 RG- D_DBE_0 RB2 Neg_25 GND 20K XD9 VB1 RG+ D_DBE_0 RB1 Neg GND 20K TC=-15.4731U XT4 Neg VB1 RG+ PNP_INP_0 + PARAMS: AREA=4 Cemi1 VB1 GND 4.9P XD8 GND RG+ D_D2_0 XD7 RG+ VDD D_D2_0 RG1 RG+ OUT_1 24.7003705K TC=-35U XD6 GND RG- D_D2_0 XD3 RG- VDD D_D2_0 RG2 RG- OUT_26 24.7003705K TC=-35U XInput1 VM Neg IGND Bias IAVDD OUT_1 VDD Vb GND Vt0pi Vt0i Veps VNEG Vnoise + Input_1 XD5 GND REF D_D2_0 XD4 REF VDD D_D2_0 XD2 GND OUT D_D2_0 XD1 OUT VDD D_D2_0 Cc2 Plus REF 1.5P Cc1 Neg_27 OUT 1.5P RG5 Plus OUT_1 49.99925K TC=-34U RG4 Neg_27 OUT_26 50.00075K TC=-34U RG6 REF Plus 50.00075K TC=-36U RG3 OUT Neg_27 49.99925K TC=-36U .ENDS .SUBCKT Bias_0 IAVDD VDD VNEG GND Bias VM Vt0pi Vb Veps Vt0p Vt0 IGND Vnoise + Vt0i VPSref 32 GND 30 VS4 0 33 567.7114646746M VS3 34 0 567.7114646746M IS1 35 36 20.889597u VIb1 36 GND ; Current Arrow VS1 37 Vt0i 1.4 VS2 38 Vt0 1.4 Rno1 0 Vno 195.4130452932K Rno2 0 Vno 195.4130452932K G8ps GND Veps 32 VDD 1 R6 Veps GND 1 XD4 Vnoise 33 D_DBE_1 XDP2 34 Vnoise D_DBE_1 GAVb IGND Bias VALUE = {45.4545K*I(VIB1)} R1 Bias IGND 1 TC=1.87M,-3.77U Rs4 35 36 248.181818MEG XD3 36 35 D_D4_0 XDZb1 35 VDD D_ZB1_0 EVNEG VM VNEG VALUE = {3.2105*V(Bias,IGND)} EVM IAVDD VM VALUE = {3.2105*V(Bias,IGND)} XT4 Vt0pi Vt0pi VDD PNP_1_0 + PARAMS: AREA=0.125 XT3 Vt0i Vt0i GND NPN_1_0 + PARAMS: AREA=0.125 R5 Vt0i GND 100MEG R4 VDD Vt0pi 100MEG XD1 37 Vt0pi D_LIM1_0 GIb2 Vt0pi Vt0i Bias IGND 500N Rpsrr2 Vt0pi Vt0i 1G Rvb Vb GND 40K GIVb GND Vb Bias IGND 3.125U XT5 Vt0p Vt0p VDD PNP_1_0 + PARAMS: AREA=0.25 XT2 Vt0 Vt0 GND NPN_1_0 + PARAMS: AREA=0.25 R3 Vt0 GND 100MEG R2 VDD Vt0p 100MEG EAVDD IAVDD IGND VALUE = {V(VDD,GND)} EGND IGND 0 GND 0 1 XD2 38 Vt0p D_LIM1_0 GIb1 Vt0p Vt0 Bias IGND 1.5U Rpsrr1 Vt0p Vt0 1G .ENDS .SUBCKT Input_0 VM Neg IGND Bias IAVDD OUT VDD Plus GND Vt0p Vt0 Veps VNEG + Vnoise VI8b 44 50 ; Current Arrow VI3b 44 51 ; Current Arrow Vo21 IAVDD 58 633.8289718289M Vo22 59 VNEG 633.8289718289M R6 VBP_42 VBN_43 1G Rgm2 44 IGND 178.87324K Cgm2 44 IGND 1P Gm2 IGND 44 VV_40 VM 19.3414152427U EVoffs Plus 45 POLY(2) Veps GND Vnoise 0 0 2.6U -472M 0 0 EVf2 46 GND VV_40 IGND 200M C5 VBN_43 GND 100F C4 VDD VBP_42 100F Rof2 47 46 51.7025247353K TC=-2.67U,-1N R4 VBP_42 48 1K R3 VBN_43 GND 100MEG R2 VDD VBP_42 100MEG R1 VV_40 49 8K C1 OUT 49 2.5P FGI8 VBN_43 GND VI8B -1 FGI3 VDD VBP_42 VI3B 1 XD7 52 50 D_DBE_2 + PARAMS: AREA=0.125 EVt01 52 IGND Vt0 GND 1 EVt0_1 53 IGND Vt0 GND -1 XD8 51 53 D_DBE_1 + PARAMS: AREA=0.125 EVt0p2 VDD 55 VDD Vt0p 2 EVt02 54 GND Vt0 GND 2 XT4 VBN_43 55 VBP_42 PNP_1_0 + PARAMS: AREA=0.125 Cf2 47 VBN_43 5P Cf1 VBP_42 47 5P XT3 48 54 VBN_43 NPN_1_0 + PARAMS: AREA=0.125 XT2 OUT VBN_43 56 NPN_1_0 + PARAMS: AREA=6 XT1 OUT VBP_42 57 PNP_1_0 + PARAMS: AREA=6 RE1 56 GND 50 XD5 VBP_42 VDD D_LIM1_0 XD3 GND VBN_43 D_LIM1_0 XD2 VV_40 58 D_LIM1_0 C33 VV_40 VM 2.28785036899440E-0016 XD1 59 VV_40 D_LIM1_0 Ro23 GND 45 100G Ro22 Neg GND 100G Ro21 45 Neg 1G Co21 45 Neg 500F RE2 VDD 57 50 Cf5 OUT VBN_43 700F Cf4 VBP_42 OUT 700F Co23 GND 45 500F Co22 Neg GND 500F R83 VV_40 VM 69.5652763174MEG Gm1 VM VV_40 Neg 45 44.3610441345U .ENDS .SUBCKT Output_0 VM Neg IGND Bias IAVDD OUT VDD Veps GND Vt0p Vt0 Plus VNEG + Vnoise VI8b 64 74 ; Current Arrow VI3b 64 75 ; Current Arrow Vo21 IAVDD 81 648.2062590927M Vo22 66 VNEG 648.2062590927M R6 VBP_62 VBN_63 1G Rgm2 64 IGND 178.8732394366K Cgm2 64 IGND 1P Gm2 IGND 64 VV_60 VM 24.1767690533U Gmf1 VV_60 VM 65 GND -15.4731321941U R5 65 GND 25K TC=-2.67U,-1N C3 OUT 65 1.5P XD1 66 VV_60 D_LIM5_0 XVos 0 VOS VOST_0 Eios Plus 69 POLY(3) Veps GND Vnoise 0 0 VOS 0 5U 0 1 0 Rof2 Voc 71 6.4628155919K TC=-2.67U,-1N EVf2 71 GND VV_60 IGND 200M C5 VBN_63 GND 1P C4 VDD VBP_62 1P R4 VBP_62 72 400 R3 VBN_63 GND 10MEG R2 VDD VBP_62 10MEG R1 VV_60 73 9K C1 OUT 73 3P FGI8 VBN_63 GND VI8B -1 FGI3 VDD VBP_62 VI3B 1 XD7 76 74 D_DBE_3 EVt01 76 IGND Vt0 GND 1 EVt0_1 77 IGND Vt0 GND -1 XD8 75 77 D_DBE_3 EVt0p2 VDD 79 VDD Vt0p 2 EVt02 78 GND Vt0 GND 2 XT4 VBN_63 79 VBP_62 PNP_1_0 + PARAMS: AREA=0.25 Cf2 Voc VBN_63 10P Cf1 VBP_62 Voc 10P XT3 72 78 VBN_63 NPN_1_0 + PARAMS: AREA=0.25 XT2 OUT VBN_63 80 NPN_OUT_0 + PARAMS: AREA=10 XT1 OUT VBP_62 67 PNP_OUT_0 + PARAMS: AREA=10 RE1 80 GND 10 XD5 VBP_62 VDD D_LIM1_0 XD3 GND VBN_63 D_LIM1_0 XD2 VV_60 81 D_LIM5_0 C33 VV_60 VM 9.88452793058326E-0017 Ro23 GND 69 100G Ro22 Neg GND 100G Ro21 69 Neg 1G Co21 69 Neg 500F RE2 VDD 67 10 Cf5 OUT VBN_63 800F Cf4 VBP_62 OUT 800F Co23 GND 69 500F Co22 Neg GND 500F R83 VV_60 VM 161.0142074661MEG Gm1 VM VV_60 Neg 69 77.3656609706U .ENDS .SUBCKT Input_1 VM Neg IGND Bias IAVDD OUT VDD Plus GND Vt0p Vt0 Veps VNEG + Vnoise VI8b 87 93 ; Current Arrow VI3b 87 94 ; Current Arrow Vo21 IAVDD 101 633.8289718289M Vo22 102 VNEG 633.8289718289M R6 VBP VBN 1G Rgm2 87 IGND 178.87324K Cgm2 87 IGND 1P Gm2 IGND 87 VV VM 19.3414152427U EVoffs Plus 88 POLY(2) Veps GND Vnoise 0 0 2.8U 472M 0 0 EVf2 89 GND VV IGND 200M C5 VBN GND 100F C4 VDD VBP 100F Rof2 90 89 51.7025247353K TC=-2.67U,-1N R4 VBP 91 1K R3 VBN GND 100MEG R2 VDD VBP 100MEG R1 VV 92 8K C1 OUT 92 2.5P FGI8 VBN GND VI8B -1 FGI3 VDD VBP VI3B 1 XD7 95 93 D_DBE_2 + PARAMS: AREA=0.125 EVt01 95 IGND Vt0 GND 1 EVt0_1 96 IGND Vt0 GND -1 XD8 94 96 D_DBE_1 + PARAMS: AREA=0.125 EVt0p2 VDD 98 VDD Vt0p 2 EVt02 97 GND Vt0 GND 2 XT4 VBN 98 VBP PNP_1_0 + PARAMS: AREA=0.125 Cf2 90 VBN 5P Cf1 VBP 90 5P XT3 91 97 VBN NPN_1_0 + PARAMS: AREA=0.125 XT2 OUT VBN 99 NPN_1_0 + PARAMS: AREA=6 XT1 OUT VBP 100 PNP_1_0 + PARAMS: AREA=6 RE1 99 GND 50 XD5 VBP VDD D_LIM1_0 XD3 GND VBN D_LIM1_0 XD2 VV 101 D_LIM1_0 C33 VV VM 1.28655280833754E-0016 XD1 102 VV D_LIM1_0 Ro23 GND 88 100G Ro22 Neg GND 100G Ro21 88 Neg 1G Co21 88 Neg 500F RE2 VDD 100 50 Cf5 OUT VBN 700F Cf4 VBP OUT 700F Co23 GND 88 500F Co22 Neg GND 500F R83 VV VM 123.7064985288MEG Gm1 VM VV Neg 88 44.3610441345U .ENDS .SUBCKT JPF_0 1 2 3 J1 1 2 3 JPF .ENDS * * CONNECTIONS: C * | B * | | E * | | | .SUBCKT PNP_INN_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_PNP_INN {AREA} .ENDS .MODEL Q_PNP_INN PNP + IS=1.27E-18 + NF=1 + NR=1 + IKF=3.0 + IKR=3.0 + BF=206.6 + ISE=270E-18 + NE=2.5 + BR=2.0 + ISC=23F + NC=2 + CJE=10F + CJC=20F + TF=6P + TR=600P + XTB=-2.55 + EG=1.02 + XTI=3 + KF=3.7629E-18 .SUBCKT D_D2_0 1 2 D1 1 2 D2 .ENDS * .SUBCKT D_DBE_0 1 2 D1 1 2 DBE .ENDS *$ * * CONNECTIONS: C * | B * | | E * | | | .SUBCKT PNP_INP_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_PNP_INP {AREA} .ENDS .MODEL Q_PNP_INP PNP + IS=1.26733629E-18 + NF=1 + NR=1 + IKF=3.0 + IKR=3.0 + BF=210.4 + ISE=270E-18 + NE=2.5 + BR=2.0 + ISC=23F + NC=2 + CJE=10F + CJC=20F + TF=6P + TR=600P + XTB=-2.55 + EG=1.02 + XTI=3 + KF=3.7629E-18 .SUBCKT D_DBE_1 1 2 + PARAMS: AREA = 1 D1 1 2 DBE {AREA} .ENDS .SUBCKT D_D4_0 1 2 D1 1 2 DD .MODEL DD D( IS=10F N=0.10 RS=1 XTI=0 EG=0.11) .ENDS D_D4_0 .SUBCKT D_ZB1_0 1 2 D1 1 2 D_2_6V CD 1 2 10P .MODEL D_2_6V D( IS=1F N=1.0 BV=2.6 IBV=20.0U RS=0 XTI=0) .ENDS * * CONNECTIONS: C * | B * | | E * | | | .SUBCKT PNP_1_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_PNP_1 {AREA} .ENDS .SUBCKT NPN_1_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_NPN_1 {AREA} .ENDS .SUBCKT D_LIM1_0 1 2 D1 1 2 D_LIM1 .ENDS *$ .SUBCKT D_DBE_2 1 2 + PARAMS: AREA = 1 D1 1 2 DBE {AREA} .ENDS .SUBCKT D_LIM5_0 1 2 D1 1 2 D_LIM5 .ENDS *$ .SUBCKT VOST_0 1 2 *OUTPUT OFFSET VOLTAGE, VOSO = ±200 ±700 UV *VS TEMPERATURE DVOSO/DT ±2.0 ±10.0 UV/°C .PARAM I0 = 1M .PARAM DVOS_DT = {-1.0U} .PARAM RG3 = 50K .PARAM RG4 = 50K .PARAM AOS = {(RG3 + RG4)/RG4} .PARAM VOFFS = {(-200U + 27U)/AOS} ;VOSI = 40U, VOSO = 200U .PARAM R0 = {VOFFS/I0} .PARAM TC1= {DVOS_DT/R0/I0/AOS} R2 40 0 RMOD2 {R0} I2 40 0 {I0} E3 1 2 40 0 1 .MODEL RMOD2 RES (TC1={TC1} TC2=0 TCE=0) .ENDS .SUBCKT D_DBE_3 1 2 D1 1 2 DBE 0.25 .ENDS *$ .SUBCKT NPN_OUT_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_NPN_OUT {AREA} .ENDS * * CONNECTIONS: C * | B * | | E * | | | .SUBCKT PNP_OUT_0 1 2 3 + PARAMS: AREA = 1 Q 1 2 3 Q_PNP_OUT {AREA} .ENDS .MODEL D_Lim1 D( IS=10F N=1.0 RS=1000 XTI=0 AF=0 KF=0 EG=1.11) *$ .MODEL D_Lim2 D( IS=10f N=0.5 RS=1 XTI=0 AF=0 KF=0 EG=0.555 ) *$ .MODEL D_Lim3 D( IS=1E-18 N=1.0 RS=1 XTI=0 AF=0 KF=0) *$ .MODEL D_Lim4 D( IS=10F N=1.0 RS=1m XTI=0 AF=0 KF=0) *$ .MODEL D_Lim5 D( IS=10F N=1.0 RS=10 XTI=0 AF=0 KF=0) *$ .MODEL D1 D( IS=1p N=1.0 RS=0 XTI=3 AF=0 KF=0 ) *$ .MODEL D2 D( IS=1p N=1.0 XTI=0 RS=10) *$ .MODEL Q_NPN_1 NPN + IS=8.8E-18 + NF=1 + NR=1 + VAF=285 + VAR=100 + IKF=2.0 + IKR=2.0 + BF=210 + ISE=16E-18 + NE=1.6438 + BR=10 + ISC=2.0f + NC=2 + RE=31 + RB=850 + RC=67 + CJE=12f + CJC=3f + CJS=7.0f + TF=10p + TR=600p + KF=3.7629e-18 .MODEL Q_NPN_OUT NPN + IS=8.8E-18 + NF=1 + NR=1 + VAF=285 + VAR=100 + IKF=2.0 + IKR=2.0 + BF=210 + ISE=16E-18 + NE=1.6438 + BR=10 + ISC=2.0f + NC=2 + RE=31 + RB=850 + RC=67 + CJE=12f + CJC=3f + CJS=7.0f + TF=10p + TR=600p + KF=3.7629e-18 * .MODEL Q_PNP_1 PNP + IS=1.25E-18 + NF=1 + NR=1 + VAF=285 + VAR=100 + IKF=3.0 + IKR=3.0 + BF=210 + ISE=270E-18 + NE=2.5 + BR=2 + ISC=35.0f + NC=2 + RE=61.0 + RB=640 + RC=220 + CJE=12.0f + CJC=34f + CJS=7.0f + TF=6p + TR=600p + KF=3.7629e-18 .MODEL Q_PNP_OUT PNP + IS=1.25E-18 + NF=1 + NR=1 + VAF=285 + VAR=100 + IKF=3.0 + IKR=3.0 + BF=210 + ISE=270E-18 + NE=2.5 + BR=2 + ISC=35.0f + NC=2 + RE=61.0 + RB=640 + RC=220 + CJE=12.0f + CJC=34f + CJS=7.0f + TF=6p + TR=600p + KF=3.7629e-18 .SUBCKT JPF 1 2 3 J1 1 2 3 JPF .ENDS .model JPF PJF(Beta=315.0u Lambda=10m Vto=-2.0) .SUBCKT D_Dbe 1 2 + PARAMS: AREA = 1 D1 1 2 Dbe {AREA} .ENDS *$ .Model Dbe D ( IS=8.8E-18 N=1 RS=100 KF=0.48e-18) .Model Dbe2 D ( IS=16.1718E-18 N=1.6438 KF=4.8e-18) *------------------------------------------------------------------- *------------------------------------------------------------------- **$ENCRYPTED_LIB **$INTERFACE ** *$ *LM4040A25 ***************************************************************************** * (C) Copyright 2011 Texas Instruments Incorporated. All rights reserved. ***************************************************************************** ** This model is designed as an aid for customers of Texas Instruments. ** TI and its licensors and suppliers make no warranties, either expressed ** or implied, with respect to this model, including the warranties of ** merchantability or fitness for a particular purpose. The model is ** provided solely on an "as is" basis. The entire risk as to its quality ** and performance is with the customer ***************************************************************************** * ** Released by: Analog eLab(TM) Design Center, Texas Instruments Inc. * Part: LM4040A25 * Date: 10/21/2011 * Model Type: Transient * Simulator: PSpice * Simulator Version: 16.0.0.p001 * Datasheet: SLOS456K - January 2005 - Revised March 2008 * Model Version: 1.0 * ***************************************************************************** * * Updates: * * Final 1.00 * Release to Web. * *************************************************************************** .SUBCKT LM4040A25_TRANS CATHODE ANODE PARAMS: TOL=0 $CDNENCSTART eee8c5c7a2bc4b01f045f303678664e7916da0bae22e8cb0bba041dd67c69ce448ea70148a9ac1670c8926c1ac5057c8ccfcd77bf87ca9dcd1b65e09f9908036 93d3808648446fd7f77ad82184e60cbe9ec1d112ee6b2491ec4a5a6730c79a209ce67fa041687335f0c3ed969dcfce9c9f7b2cbc4b3d7b1e3c474f88d45504f7 6525da4cfd71409d7d08a51cad5c5feb82b89d682d0e04875431f248b4a86b2af467148f06ca8e43afb6beff1c63162aa451e41260ea084e3504b49fb273ed4d 30121bf0e4b6f880f77ad82184e60cbe9ec1d112ee6b24917bf8652711e2fbd1871430a6b90381d77537b1a633d6c4bcd041c02088d51cf00e9eafd1eea9e350 717cdf892ff6b6fff77ad82184e60cbe9ec1d112ee6b2491d5d3459dd8d04de17537b1a633d6c4bcd041c02088d51cf03ac5ee6c426bcd4a30a4b55c922f27d0 7aff1ed17501806226c880f485e2ca34305095eeecc107f956bfede5d11cc7cad00a4b1e414aab7dad20d02c6f1300e9f359a952eb9efb4ade2d1a58931d07ea b90e0c5fe970b387f77ad82184e60cbe9ec1d112ee6b2491eb822410ce85bacb644126c9831a96bd06a98e113865fb422dbd6002cf60bdf4a8b960f56f13ad45 394197bedeb77a7145cb00bd1bcc113500fc5528a23476c2940cda8cb8117bcfbf1ee911780421ddafb6beff1c63162aa451e41260ea084e3504b49fb273ed4d b0eb42ca922cce592fbfcc2b872ff9465939554c11302358ce5ec34e6f8ad1cac750302da6b6ea7237f29f73f268cc54c13dc4ea5717ec0f218bdd5b106efb0f 2ee445ff59dd004f4914fda5261244f58c1a808cea4a89fe36fb420f5a067a1e9ef24e0793c8c7fdd92727792098e9ef2598a465086051f02680b54de0620698 7cf060dfa3fe944743bd3c356a94a470334cfe0b064342fbb7af4b05673d64487eae51810fbbc4c71b73c3b0c68f2397f0fd8550f14a0bc37b3f1c68f07ab607 c43ca65fb3926f3bf77ad82184e60cbe1b8e13e993c0d2b7ef8e8283a350b45fbf1ee911780421ddafb6beff1c63162aa451e41260ea084e3504b49fb273ed4d 9445347659ec35d38396ad44395f580a77e7743d1d91714f5ec32fb9669e336081cab5cf36058f8ca508e92f1f9f2ac68917ca3f504ace4519e85e34fe8d49c8 7cb86961b1d9e0f4872aa1e271d458da321f7bb001398dbff9ee935cd3c9c1a0999885ffe318eff0f0fd8550f14a0bc3a9c03ef208881bc3b7eb828bd37a0079 9afa1f10a7f457eaf77ad82184e60cbe9ec1d112ee6b24914a59c2d6c8a871489ce67fa041687335f0c3ed969dcfce9c9f7b2cbc4b3d7b1e3c474f88d45504f7 3bdfb3bcf8540f5719fbccccf151cc3dd49b3665bfe56f4a4b75cd92b718961de5aa398297bcf02d8afdcff81a5842a898a6cf7974a474ee77ede307118e17d5 2a76c18f665e8c27f77ad82184e60cbe6eecd9f1495ce466c8bdb84dc3a9cf55b50c79b0cdedee0b7537b1a633d6c4bcd041c02088d51cf00e9eafd1eea9e350 f06c95c79b4ad68bf77ad82184e60cbe9ec1d112ee6b2491520fd9260e2776c73c0e10454a8b70aa0b6b6f8134dbe408f0fd8550f14a0bc37b3f1c68f07ab607 e83d563d614d5ce9f77ad82184e60cbe3feb30d440df165bc07d151198dfdc6e3b79d1cd0e073c32f0fd8550f14a0bc3a9c03ef208881bc3b7eb828bd37a0079 db6501bca5d38267dec80522503aa475027662553ca9fe20d85fc4f5b44e560a66caa9fac4006519abfd2ed4ae284971d00a4b1e414aab7dc4fa920a4948142b 615a28c46d72374045cb00bd1bcc1135ec1cf1c0a753eb72092226aa8bcd1c39644126c9831a96bd06a98e113865fb422dbd6002cf60bdf4a8b960f56f13ad45 $CDNENCFINISH .ENDS LM4040A25_TRANS *$ .subckt DC_1mV_1A_1V_1nA A C $CDNENCSTART eee8c5c7a2bc4b01f045f303678664e7916da0bae22e8cb0bba041dd67c69ce448ea70148a9ac1670c8926c1ac5057c8ccfcd77bf87ca9dcd1b65e09f9908036 9a46c79d7c3132bd70fab9fd747b5260631c96dfb01993e949f0001ae86fc66bdd36205ec715a450e03531ceb3d43151fe1039b2586ddf2b1dda3845939d8d6f b1d50658e2236fd2d00a4b1e414aab7dad20d02c6f1300e9f359a952eb9efb4a4d5b3393970c9f2eb2c20c1b5661ef087ce5174e5cb3708768a1f47320ced003 $CDNENCFINISH .ends DC_1mV_1A_1V_1nA *$ *------------------------------------------------------------------- *------------------------------------------------------------------- * TLV3401 ***************************************************************************** * (C) Copyright 2011 Texas Instruments Incorporated. All rights reserved. ***************************************************************************** ** This model is designed as an aid for customers of Texas Instruments. ** TI and its licensors and suppliers make no warranties, either expressed ** or implied, with respect to this model, including the warranties of ** merchantability or fitness for a particular purpose. The model is ** provided solely on an "as is" basis. The entire risk as to its quality ** and performance is with the customer. ***************************************************************************** * * This model is subject to change without notice. Texas Instruments * Incorporated is not responsible for updating this model. * ***************************************************************************** * ** Released by: Analog eLab Design Center, Texas Instruments Inc. * Part: TLV3401 * Date: 13JUN2011 * Model Type: ALL IN ONE * Simulator: PSPICE * Simulator Version: 16.0.0.p001 * EVM Order Number: N/A * EVM Users Guide: N/A * Datasheet: SLCS135A – AUGUST 2000 – REVISED NOVEMBER 2000 * * Model Version: 1.0 * ***************************************************************************** * * Updates: * * Version 1.0 : * Release to Web * ***************************************************************************** * * THIS MODEL IS APPLICABLE FOR TLV3401,TLV3402 & TLV3403 * ***************************************************************************** * BEGIN MODEL TLV3401 * BEGIN NOTES * MODEL FEATURES INCLUDE OUTPUT SWING, OUTPUT * CURRENT THROUGH THE SUPPLY RAILS, TPD VS * DRIVE LEVEL, RISE AND FALL TIME VERSUS VCC, * COMMON MODE REJECTION, POWER SUPPLY REJECT- * ION, AVOL, INPUT CAPACITANCE, INPUT BIAS * CURRENT WITH TEMPERATURE EFFECTS, INPUT * COMMON MODE VOLTAGE RANGE, INPUT VOS, INPUT * VOS TEMPCO, INPUT CLAMP DIODES,OUTPUT CLAMP * DIODES, QUIESCENT CURRENT VS SUPPLY VOLTAGE, * QUIESCENT CURRENT VS TEMPERATURE, AND OPEN * DRAIN OFF OUTPUT LEAKAGE VS TEMPERATURE. * MODEL TEMPERATURE RANGE IS -55 TO +125 DEG * C. NOTE THAT MODEL IS FUNCTIONAL OVER THIS * RANGE BUT NOT ALL PARAMETERS TRACK THOSE * OF THE REAL PART. NOTE THAT TRISE AND TFALL * ACCURACY IS BETTER IN VCC RANGE OF 2.5 TO * 5, AND WORSE IN 5.5 TO 15 V RANGE. NOTE * THAT THE MODEL HAS A SMALL INPUT HYSTERESIS * BUILT IN (70-80 UV) THAT IS NOT IN THE REAL * PART TO AID IN CONVERGENCE AND SIMULATION. * END NOTES * PINOUT ORDER +IN -IN +V -V OUT * PINOUT ORDER 3 4 5 2 1 .SUBCKT TLV3401 3 4 5 2 1 I36 9 15 350E-11 R125 13 10 1E12 R127 6 7 1E6 C49 10 13 11E-15 R313 9 12 1E12 C111 3 0 2E-12 C112 4 0 2E-12 I37 3 0 2E-12 I38 4 0 2E-12 R315 10 16 1E5 R316 13 16 1E5 E50 9 0 2 0 1 E51 17 0 5 0 1 C120 12 9 2E-15 E53 18 9 17 9 0.5 R330 0 18 1E9 R331 0 18 1E9 R332 19 20 1E3 C122 13 20 0.08E-12 D52 21 22 DD D53 23 24 DD G21 20 18 10 13 -0.04E-3 V56 21 19 1.5 V57 19 24 1.5 C124 6 1 0.5E-12 C126 6 2 0.3E-12 Q1 7 25 17 QP I39 25 17 3.7E-9 E61 8 9 19 18 -5 V63 22 18 2.5 V64 18 23 2.5 G23 17 25 26 27 -3.7E-9 M50 27 17 9 9 MSNA L=1U W=10U M24 1 6 2 2 NOUT L=3U W=3U M38 7 8 9 9 MCNO L=1U W=1.4U M39 10 11 12 12 MCI L=3U W=0.01U M40 13 14 12 12 MCI L=3U W=0.01U R353 27 26 1E6 V65 26 9 1 V67 16 17 5 Q2 28 15 9 QN V68 12 28 -3 M52 29 30 17 17 MCNV M53 31 32 9 9 MCPV R357 29 33 1E6 R358 34 31 1E6 M54 35 36 9 9 MCNC M60 35 37 9 9 MCNC E65 36 9 33 29 5 E66 37 9 31 34 5 V70 9 34 3 V71 33 17 3 D54 38 0 DD I40 0 38 1E-3 V75 38 39 0.65 R360 0 39 1E6 E67 40 32 39 0 0.5 E68 3 30 39 0 -0.5 E69 40 9 3 9 10 M61 41 42 17 17 MCNV M62 43 44 9 9 MCPV R361 41 45 1E6 R362 46 43 1E6 M63 35 47 9 9 MCNC M64 35 48 9 9 MCNC E70 47 9 45 41 5 E71 48 9 43 46 5 V76 9 46 3 V77 45 17 3 D55 49 0 DD I41 0 49 1E-3 V79 49 50 0.65 R364 0 50 1E6 E72 51 44 50 0 0.5 E73 4 42 50 0 -0.5 E74 51 9 4 9 10 R365 35 6 1 M65 52 17 9 9 MSNB L=1U W=10U R366 52 53 1E6 V81 53 9 1 G24 17 25 53 52 -6.67E-9 E75 14 54 55 0 1E-2 E76 54 56 17 18 1.04E-3 E77 56 57 9 18 1E-3 E78 57 4 50 0 1.8E-3 R367 0 55 1E3 R368 55 58 1E5 E79 59 0 14 18 1 E80 60 0 3 18 1 R369 58 59 1E3 R370 58 60 1E3 R371 54 14 1E9 R372 56 54 1E9 R373 57 56 1E9 R374 4 57 1E9 R375 7 8 1E10 R376 63 10 1E10 V148 10 63 5 R377 18 20 1E9 D56 61 62 DL V144 62 0 3 R378 0 61 1E8 G53 3 0 61 0 4.52E-10 I66 3 0 -125E-12 G54 4 0 61 0 4.52E-10 I67 4 0 -125E-12 G55 1 0 61 0 3.37E-10 I68 1 0 11E-12 G56 5 2 50 0 -870E-9 I69 5 2 460E-9 R379 2 5 1.35E9 V146 3 11 -250E-6 J1 4 9 4 JNC J2 3 9 3 JNC D57 2 1 DD .MODEL DD D .MODEL DL D IS=1E-11 N=1.397 XTI=1.5 .MODEL QN NPN .MODEL QP PNP VAF=50 .MODEL JNC NJF IS=1E-18 .MODEL MSNA NMOS KP=200U VTO=3.5 .MODEL MSNB NMOS KP=200U VTO=7.5 .MODEL MCNV NMOS KP=200U VTO=5 .MODEL MCPV PMOS KP=200U VTO=-1 .MODEL MCNC NMOS KP=200U VTO=0.7 .MODEL MCI NMOS KP=200U VTO=0.7 .MODEL MCNO NMOS KP=200U VTO=1 LAMBDA=0.01 .MODEL MSN NMOS KP=200U VTO=7 .MODEL NOUT NMOS KP=200U VTO=0.7 + LAMBDA=0.01 IS=1E-18 .ENDS * END MODEL TLV3401 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT irlr_u3636pbf 1 2 3 * SPICE3 MODEL WITH THERMAL RC NETWORK ************************************** * 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 June 20, 10 * 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 .MODEL MM NMOS LEVEL=1 IS=1e-32 +VTO=2.56742 LAMBDA=0.0102637 KP=145.664 +CGSO=3.09586e-05 CGDO=1.49668e-08 RS 8 3 0.00218926 D1 3 1 MD .MODEL MD D IS=1.37273e-07 RS=0.00209155 N=1.5 BV=60 +IBV=0.00025 EG=1 XTI=4 TT=1e-07 +CJO=9.67726e-10 VJ=0.50042 M=0.355629 FC=0.497328 RDS 3 1 2e+07 RD 9 1 0.00235002 RG 2 7 6.9334 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=1.14103e-09 VJ=1.95586 M=0.705443 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=0.999548 RS=2.99999e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 2.84885e-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=0.999548 .ENDS irlr_u3636pbf *SPICE Thermal Model Subcircuit .SUBCKT irlr_u3636pbft 5 1 R_RTHERM1 5 4 0.02028 R_RTHERM2 4 3 0.29405 R_RTHERM3 3 2 0.49179 R_RTHERM4 2 1 0.24336 C_CTHERM1 5 1 0.0005424 C_CTHERM2 4 1 0.0005373 C_CTHERM3 3 1 0.0028325 C_CTHERM4 2 1 0.0297911 .ENDS irlr_u3636pbft *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT NTF3055L108 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 Sep 28, 01 * MODEL FORMAT: PSpice * 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=2.00805 LAMBDA=0 KP=5.2142 +CGSO=2.58042e-06 CGDO=7.82967e-08 RS 8 3 0.0001 D1 3 1 MD .MODEL MD D IS=2.28591e-11 RS=0.0322751 N=1.15537 BV=60 +IBV=0.00025 EG=1.2 XTI=1.06261 TT=0.0001 +CJO=3.48003e-10 VJ=0.5 M=0.390812 FC=0.1 RDS 3 1 6e+06 RD 9 1 0.0244073 RG 2 7 18.0126 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=3.40567e-10 VJ=1.55703 M=0.885102 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=0.403631 RS=3.00001e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 7.52345e-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=0.403631 .ENDS NTF3055L108 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT ntd18n06l 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 Aug 3, 04 * MODEL FORMAT: PSpice * 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=1.98948 LAMBDA=0 KP=21.272 +CGSO=4.18085e-06 CGDO=8.56633e-08 RS 8 3 0.0375073 D1 3 1 MD .MODEL MD D IS=8.82716e-09 RS=0.00616994 N=1.5 BV=60 +IBV=0.00025 EG=1 XTI=2.2423 TT=0 +CJO=5.77207e-10 VJ=0.656334 M=0.448458 FC=0.5 RDS 3 1 2.4e+11 RD 9 1 0.0001 RG 2 7 17.1584 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=6.54462e-10 VJ=1.69471 M=0.891807 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=0.400114 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 6.54462e-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=0.400114 .ENDS ntd18n06l *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT ntd18n06 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 12, 10 * MODEL FORMAT: PSpice * 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=3.75284 LAMBDA=0 KP=7.07597 +CGSO=4.29543e-06 CGDO=2.23197e-07 RS 8 3 0.0040144 D1 3 1 MD .MODEL MD D IS=1.72177e-10 RS=0.0072018 N=1.3072 BV=70.8 +IBV=0.00025 EG=1 XTI=1 TT=0 +CJO=5.82737e-10 VJ=3.372 M=0.9 FC=0.5 RDS 3 1 1e+06 RD 9 1 0.0301439 RG 2 7 11.7544 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=5.933e-10 VJ=0.5 M=0.610324 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 5.933e-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 ntd18n06 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT irf6218s_l 1 2 3 * SPICE3 MODEL WITH THERMAL RC NETWORK ************************************** * 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 Jul 30, 09 * 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 .MODEL MM PMOS LEVEL=1 IS=1e-32 +VTO=-4.28033 LAMBDA=0.223373 KP=7.77444 +CGSO=2.06692e-05 CGDO=1.76614e-07 RS 8 3 0.0728065 D1 1 3 MD .MODEL MD D IS=7.67192e-10 RS=0.00988416 N=1.34281 BV=150 +IBV=0.00025 EG=1.2 XTI=4 TT=1e-07 +CJO=1.67593e-09 VJ=1.60787 M=0.6104 FC=0.5 RDS 3 1 1e+07 RD 9 1 0.0128309 RG 2 7 3.88066 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=2.75753e-09 VJ=0.5 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=0.407611 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 5.9258e-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=0.407611 .ENDS irf6218s_l *---------- *SPICE Thermal Model Subcircuit .SUBCKT irf6218s_lt 4 1 R_RTHERM1 4 3 0.264069 R_RTHERM2 3 2 0.205597 R_RTHERM3 2 1 0.139579 C_CTHERM1 4 1 0.001079 C_CTHERM2 3 1 0.009081 C_CTHERM3 2 1 0.096848 .ENDS irf6218s_lt *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=DDZ9698;DI_DDZ9698;Diodes;Zener 10V-50V; 11.0V 0.500W Diodes Inc. zener *SYM=HZEN .SUBCKT DDZ9698 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 10.7 .MODEL DF D ( IS=18.7p RS=32.7 N=1.10 + CJO=35.2p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=3.75f RS=69.0 N=0.446 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=BZT52C3V3;DI_BZT52C3V3;Diodes;Zener <=10V; 3.30V 0.500W Diodes Inc. *SYM=HZEN .SUBCKT BZT52C3V3 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 0.827 .MODEL DF D ( IS=62.4p RS=36.2 N=1.10 + CJO=403p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=12.5f RS=79.5 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5223B;DI_MMBZ5223B;Diodes;Zener <=10V; 2.70V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5223B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 0 .MODEL DF D ( IS=53.4p RS=35.7 N=1.10 + CJO=172p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=10.7f RS=26.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5225B;DI_MMBZ5225B;Diodes;Zener <=10V; 3.00V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5225B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 0.274 .MODEL DF D ( IS=48.1p RS=35.4 N=1.10 + CJO=147p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=9.61f RS=26.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5226B;DI_MMBZ5226B;Diodes;Zener <=10V; 3.30V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5226B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 0.606 .MODEL DF D ( IS=43.7p RS=35.2 N=1.10 + CJO=127p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=8.74f RS=24.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5227B;DI_MMBZ5227B;Diodes;Zener <=10V; 3.60V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5227B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 0.980 .MODEL DF D ( IS=40.1p RS=34.9 N=1.10 + CJO=112p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=8.01f RS=20.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5231B;DI_MMBZ5231B;Diodes;Zener <=10V; 5.10V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5231B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 2.59 .MODEL DF D ( IS=28.3p RS=33.9 N=1.10 + CJO=66.2p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=5.65f RS=13.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5232B;DI_MMBZ5232B;Diodes;Zener <=10V; 5.60V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5232B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 3.21 .MODEL DF D ( IS=25.7p RS=33.7 N=1.10 + CJO=57.6p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=5.15f RS=7.11 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5233B;DI_MMBZ5233B;Diodes;Zener <=10V; 6.00V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5233B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 3.68 .MODEL DF D ( IS=24.0p RS=33.5 N=1.10 + CJO=51.9p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=4.81f RS=3.11 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5234B;DI_MMBZ5234B;Diodes;Zener <=10V; 6.20V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5234B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 3.88 .MODEL DF D ( IS=23.3p RS=33.4 N=1.10 + CJO=49.4p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=4.65f RS=3.11 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5235B;DI_MMBZ5235B;Diodes;Zener <=10V; 6.80V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5235B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 4.53 .MODEL DF D ( IS=21.2p RS=33.1 N=1.10 + CJO=43.0p VJ=0.750 M=0.330 TT=50.1n ) .MODEL DR D ( IS=4.24f RS=1.15 N=2.97 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5241B;DI_MMBZ5241B;Diodes;Zener 10V-50V; 11.0V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5241B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 8.33 .MODEL DF D ( IS=13.1p RS=31.7 N=1.10 + CJO=45.2p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=2.62f RS=18.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5244B;DI_MMBZ5244B;Diodes;Zener 10V-50V; 14.0V 0.350W Diodes Inc. Zener *SYM=HZEN .SUBCKT MMBZ5244B 1 2 *Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 11.7 .MODEL DF D ( IS=10.3p RS=1.77 N=1.10 + CJO=31.4p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=2.06f RS=6.37 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5245B;DI_MMBZ5245B;Diodes;Zener 10V-50V; 15.0V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5245B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 12.4 .MODEL DF D ( IS=9.61p RS=30.8 N=1.10 + CJO=37.2p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=1.92f RS=12.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5254B;DI_MMBZ5254B;Diodes;Zener 10V-50V; 27.0V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5254B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 23.9 .MODEL DF D ( IS=5.34p RS=29.2 N=1.10 + CJO=27.3p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=1.07f RS=37.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5256B;DI_MMBZ5256B;Diodes;Zener 10V-50V; 30.0V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5256B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 26.7 .MODEL DF D ( IS=4.81p RS=28.9 N=1.10 + CJO=26.1p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=9.61e-016 RS=45.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *SRC=MMBZ5257B;DI_MMBZ5257B;Diodes;Zener 10V-50V; 33.0V 0.350W Diodes Inc. *SYM=HZEN .SUBCKT MMBZ5257B 1 2 * Terminals A K D1 1 2 DF DZ 3 1 DR VZ 2 3 29.5 .MODEL DF D ( IS=4.37p RS=28.6 N=1.10 + CJO=25.1p VJ=1.00 M=0.330 TT=50.1n ) .MODEL DR D ( IS=8.74e-016 RS=54.1 N=3.00 ) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * QIMX9 NPN BJT model * Date: 2006/12/06 * was .MODEL IMX9 NPN .MODEL IMX9 NPN + IS=1.5000E-12 + BF=1.0520E3 + VAF=36.700 + IKF=3.2468 + ISE=1.5000E-12 + NE=2.3002 + BR=52.730 + VAR=100 + IKR=.37406 + ISC=1.7779E-12 + NC=2.1499 + NK=.96651 + RE=.1 + RB=2.7608 + RC=.17064 + CJE=51.912E-12 + MJE=.39966 + CJC=22.112E-12 + MJC=.38184 + TF=384.39E-12 + XTF=23.667 + VTF=33.125 + ITF=5.0910 + TR=6.2144E-9 + XTB=1.5000 *------------------------------------------------------------------- *------------------------------------------------------------------- * EMB10 DIGITAL PNP BJT model * Date: 2007/01/06 * BJT with resistors **************C B E .SUBCKT EMB10 1 2 3 R1 2 Base Rb 2.2K R2 Base 3 Re 47K Q1 1 Base 3 QDTA1 .MODEL Rb RES + R=1 .MODEL Re RES + R=1 .MODEL QDTA1 PNP + IS=20.000E-15 + BF=187.64 + VAF=10 + IKF=.21074 + ISE=20.000E-15 + NE=1.5456 + BR=13.699 + VAR=100 + IKR=1.2543 + ISC=17.145E-12 + NC=1.4944 + NK=.98507 + RE=.5 + RB=14.057 + RC=1.2972 + CJE=22.937E-12 + MJE=.58268 + CJC=11.613E-12 + MJC=.43988 + TF=500.00E-12 + XTF=582.01 + VTF=194.23 + ITF=18.786 + TR=300.00E-9 + XTB=1.5000 .ENDS EMB10 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT 1smb30cat3g 1 2 x1 3 1 1smb30cat3g_tvs x2 3 2 1smb30cat3g_tvs .ENDS 1smb30cat3g *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT 1smb30cat3g_tvs 7 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 Nov 1, 08 * MODEL FORMAT: PSpice * anode cathode *node: 7 1 * Forward Section D1 2 1 MDD1 .MODEL MDD1 D IS=1.7068e-15 N=1 XTI=1 RS=0.1 + CJO=2.9e-10 TT=2e-09 * Leakage Current R 1 2 MDR 3e+10 .MODEL MDR RES TC1=0 TC2=0 * Breakdown RZ 2 3 0.146635 D3 4 3 MDD3 .MODEL MDD3 D IS=2.5e-15 N=0.5 EV1 1 4 6 8 1 IBV 0 6 0.001 RBV 6 0 MDRBV 34360 .MODEL MDRBV RES TC1=0 D4 8 0 MDD3 L 7 2 1e-15 IT 0 8 0.001 .ENDS 1smb30cat3g_tvs *------------------------------------------------------------------- *------------------------------------------------------------------- ***************************************************************** * INFINEON Power Transistors * * PSPICE Library for PFET p-Channel Transistors * * (simplified models, also suitable for other Spice variants) * * Version 070305 * * * ***************************************************************** * simulation support: simulate@infineon.com * * * * internet : www.infineon.com/simulate * ***************************************************************** * * * Models provided by Infineon are not warranted by Infineon as * * fully representing all the specifications and operating * * characteristics of the semiconductor product to which the * * model relates. The models describe the characteristics of * * typical devices. * * In all cases, the current data sheet information for a given * * device is the final design guideline and the only actual * * performance specification. * * Although models can be a useful tool in evaluating device * * performance, they cannot model exact device performance under * * all conditions, nor are they intended to replace bread- * * boarding for final verification. INFINEON therefore does not * * assume any liability arising from their use. * * INFINEON reserves the right to change models without prior * * notice. * * * * BSS83P * ***************************************************************** .SUBCKT BSS83P_L0 drain gate source *package Lg gate g1 2n Ld drain d1 1n Ls source s1 2n Rs s1 s2 76.19m Rg g1 g2 10 *MOSFET M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS PMOS ( KP=521.6m VTO=-2.25 THETA=0.02 ETA=0.00 LEVEL=3) Rd d1 d2 1.05 TC=5.5m *diode Dbd d2 s2 Dbt .MODEL Dbt D(BV=70 M=0.5 CJO=44.48p VJ=1) Dbody 21 s2 DBODY .MODEL DBODY D(IS=1.38n N=1.5 RS=18.75m EG=1.12 TT=30n) Rdiode d1 21 115.62m TC=2m .MODEL sw PMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 90p .MODEL DGD D(M=0.7 CJO=90p VJ=0.5) Rpar b d2 1Meg Dgd d2 a DGD Rpar2 d2 a 10Meg Cgs g2 s2 44.8p .ENDS BSS83P_L0 *------------------------------------------------------------------- *------------------------------------------------------------------- ********** .MODEL _R_1% RES (R=1 dev=1%) .MODEL _R_1%_15PPM RES (TC1=0.015m) .MODEL _R_1%_200PPM RES (TC1=0.2m) * Zener Diode set to provide voltage with low current ... help from Bill at Microcap .MODEL _uA5v D (BV=5 IBV=100p) *------------------------------------------------------------------- * LM117A Model created by Bill Steele, MicroCap, 12 Nov 09. * connections: input * | adjustment pin * | | output * | | | .SUBCKT LM117A IN ADJ OUT * * POSITIVE ADJUSTABLE VOLTAGE REGULATOR * JADJ IN ADJ ADJ JADJMOD ;ADJUSTMENT PIN CURRENT VREF 4 ADJ 1.25 DBK IN 13 DMOD * * ZERO OF RIPPLE REJECTION * CBC 13 15 8e-010 RBC 15 5 1000 * QPASS 13 5 OUT QPASSMOD RB1 7 6 1 RB2 6 5 128.3 * * CURRENT LIMITING * DSC 6 11 DMOD ESC 11 OUT VALUE {5.646-0.1125*V(6,5)*V(13,5)} * * FOLDBACK CURRENT * DFB 6 12 DMOD EFB 12 OUT VALUE {7.886-0.3727*V(13,5)+0.005097*V(13,5)*V(13,5) + -0.02*V(13,5)*V(6,5)} * EB 7 OUT 8 OUT 7.691 * * ZERO OF OUTPUT IMPEDANCE * RP 9 8 100 CPZ 10 OUT 3.979e-006 * DPU 10 OUT DMOD ;POWER-UP CLAMPLING DIODE RZ 8 10 0.1 EP 9 OUT 4 OUT 100 RI OUT 4 100MEG * .MODEL QPASSMOD NPN (IS=30F BF=50 VAF=8.891 NF=2.612) .MODEL JADJMOD NJF (BETA=5e-005 VTO=-1) .MODEL DMOD D (IS=30F N=2.612) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * BEGIN MODEL OPA333 * * MODEL CREATED BY W.K. SANDS 6 MARCH 2006 * FILE EDITED TO STANDARD FORMAT BY NEIL P. ALBAUGH 7 MARCH 2006 * * BEGIN NOTES * * OPA333 HAS ABOUT 160DB AVOL AT RL=10K AND 189 DB AVOL AT RL=1MEG * THIS SPICE MODEL HAS LOWER AVOL - 108 DB AT RL=10K AND * 132 DB AT RL=1MEG - TO AVOID PROBLEMS RELATED TO MATH * PRECISION AND CONVERGENCE. * * MODEL TEMP RANGE IS -40 TO +125 DEG C. * NOTE THAT THE MODEL IS FUNCTIONAL OVER THIS RANGE * BUT NOT ALL PARAMETERS TRACK THOSE OF THE REAL PART * * END NOTES * * BEGIN MODEL FEATURES * * OPEN LOOP GAIN AND PHASE * INPUT VOLTAGE NOISE * INPUT CURRENT NOISE * INPUT BIAS CURRENT * INPUT CAPACITANCE * INPUT COMMON MODE VOLTAGE RANGE * INPUT CLAMPS TO RAILS * CMRR WITH FREQUENCY EFFECTS * PSRR WITH FREQUENCY EFFECTS * SLEW RATE * QUIESCENT CURRENT * QUIESCENT CURRENT VS VOLTAGE * QUIESCENT CURRENT VS TEMPERATURE * RAIL TO RAIL OUTPUT STAGE * HIGH CLOAD EFFECTS * OVERLOAD RECOVERY TIME * APPROXIMATE SETTLING TIME * CLASS AB BIAS IN OUTPUT STAGE * OUTPUT CURRENT THROUGH SUPPLIES * OUTPUT CURRENT LIMITING * OUTPUT LIMIT VCC EFFECTS * OUTPUT CLAMPS TO RAILS * OUTPUT SWING VS OUTPUT CURRENT * * END MODEL FEATURES * * PINOUT ORDER +IN -IN +V -V OUT * PINOUT ORDER 3 4 5 2 1 * .SUBCKT OPA333 3 4 5 2 1 * Q21 6 7 8 QNL R79 9 7 100 R80 10 11 100 R81 12 5 15 R82 2 13 15 R84 14 15 2.4E3 R85 16 17 15 R86 8 18 15 D21 1 5 DD D22 2 1 DD E25 8 0 2 0 1 E26 17 0 5 0 1 E27 19 4 20 0 1 G13 21 4 22 0 3.3E-6 E28 23 0 17 0 1 E29 24 0 8 0 1 E30 25 0 26 0 1 R88 23 27 1E6 R89 24 28 1E6 R90 25 29 1E6 R91 0 27 100 R92 0 28 100 R93 0 29 100 E31 30 3 29 0 -0.0075 R94 31 26 1E3 R95 26 32 1E3 C29 23 27 0.2E-12 C30 24 28 0.2E-12 C31 25 29 2E-12 E32 33 30 28 0 0.24 E33 21 33 27 0 0.055 E34 34 8 17 8 0.5 D27 35 17 DD D28 8 36 DD M24 37 38 13 13 NOUT L=3U W=800U M25 39 40 12 12 POUT L=3U W=400U M26 41 41 16 16 POUT L=3U W=400U M29 42 42 18 18 NOUT L=3U W=800U R96 43 40 100 R97 44 38 100 R98 34 14 6E8 C32 15 1 30E-12 C34 21 0 3E-12 C35 19 0 3E-12 C36 1 0 1E-12 D29 38 6 DD D30 45 40 DD Q22 45 10 17 QPL V27 21 46 -46E-6 M30 47 46 48 48 NIN L=3U W=50U R101 49 48 2 M31 50 19 51 51 NIN L=3U W=50U R102 49 51 2 R103 47 17 2.05E3 R104 50 17 2.05E3 C37 47 50 18E-12 V29 49 52 -1 M34 52 53 8 8 NIN L=6U W=500U M35 53 53 8 8 NIN L=6U W=500U G15 14 34 54 34 0.2E-3 I28 41 42 0.15E-6 E35 32 0 21 0 1 E36 31 0 4 0 1 I29 17 53 12.5E-6 R105 1 39 5 R106 37 1 5 J5 55 21 55 JC J6 55 19 55 JC J7 19 56 19 JC J8 21 56 21 JC C38 21 19 0.5E-12 E37 57 34 50 47 1 R107 57 54 10E3 C39 54 34 18E-12 G16 58 34 14 34 -1E-3 G17 34 59 14 34 1E-3 G18 34 60 42 8 1E-3 G19 61 34 17 41 1E-3 D31 61 58 DD D32 59 60 DD R110 58 61 100E6 R111 60 59 100E6 R112 61 17 1E3 R113 8 60 1E3 E39 17 43 17 61 1 E40 44 8 60 8 1 R114 59 34 1E6 R115 60 34 1E6 R116 34 61 1E6 R117 34 58 1E6 R118 2 5 1.23E6 G20 5 2 62 0 11E-6 D33 63 0 DD V33 63 62 0.65 R119 0 62 1E6 I31 5 2 13E-6 I32 21 0 80E-12 I33 19 0 -80E-12 I34 0 63 1E-3 V45 17 55 0.3 V46 56 8 0.2 E42 5 11 5 12 10 E43 9 2 13 2 10 R169 0 20 95E3 C63 20 0 1E-12 V60 35 14 -5 V61 14 36 -5 R171 14 1 6E10 R174 0 22 54.5E3 C64 22 0 1E-12 R175 33 21 1E9 R176 30 33 1E9 R177 3 30 1E9 R178 8 53 1E9 R179 41 17 1E9 R180 8 42 1E9 R181 0 62 1E9 .MODEL JC NJF IS=1E-18 .MODEL DVN D KF=7E-14 IS=1E-16 .MODEL DIN D .MODEL DD D .MODEL DE D IS=3E-17 .MODEL QPL PNP .MODEL QNL NPN .MODEL POUT PMOS KP=200U VTO=-0.3 .MODEL NOUT NMOS KP=200U VTO=0.3 .MODEL PIN PMOS KP=200U VTO=-0.7 .MODEL NIN NMOS KP=200U VTO=0.7 .ENDS * END MODEL OPA333 *------------------------------------------------------------------- *------------------------------------------------------------------- * INA321 SPICE Macro-model * * Rev. A 5 Sept 2000, by Gina Hann & Viola Schaffer * * Rev. B 10 June 2003 By Neil Albaugh: ADDED HEADER TEXT & EDITED TEXT * * This macromodel has been optimized to model the AC, DC, and transient response performance within * the device data sheet specified limits. * Correct operation of this macromodel has been verified on MicroSim P-Spice ver. 8.0 and on * PENZAR Development TopSPICE ver. 6.82d. For help with other analog simulation software, * please consult your software supplier. * * * Copyright 2003 by Texas Instruments Corporation* INA321 SPICE Macro-model * * * connections: non-inverting input * | inverting input * | | gainset * | | | * | | | reference * | | | | positive power supply * | | | | | negative power supply * | | | | | | output * | | | | | | | .SUBCKT INA321cte IN+ IN- RG REF V+ V- OUT R2 A1OUT A2NEG 40K R1 A2NEG A2OUT 160K R4 A1NEG A1OUT 40K R3 REF A1NEG 160K XA1 IN- A1NEG V+ V- A1OUT OPAMP12 XA2 IN+ A2NEG V+ V- A2OUT OPAMP12 XA3 A2OUT RG V+ V- OUT OPAMP3 .ENDS INA321cte *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************ .subckt OPAMP12 1 2 3 4 5 ************************************ c1 11 12 785.88E-15 c2 6 7 1.500E-12 css 10 99 1.000E-30 dc 5 53 dy de 54 5 dy 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 6.3662E9 -1E3 1E3 6E9 -6E9 ga 6 0 11 12 6.2832E-6 gcm 0 6 10 99 6.2832E-12 iss 3 10 dc 300.00E-9 hlim 90 0 vlim 1K m1 11 2 10 3 mp l=2E-6 w=20E-6 m=1 m2 12 1 10 3 mp l=2E-6 w=20E-6 m=1 r2 6 9 100.00E3 rd1 4 11 159.15E3 rd2 4 12 159.15E3 ro1 8 5 50 ro2 7 99 25 rp 3 4 357.14E3 rss 10 99 666.67E6 vb 9 0 dc 0 vc 3 53 dc .8047 ve 54 4 dc .8047 vlim 7 8 dc 0 vlp 91 0 dc 12 vln 0 92 dc 12 .model mp pmos(vto=-0.75 kp=205.5u rd=1 rs=1 rg=1 rb=1 cgso=4e-9 +cgdo=4e-9 cgbo=16.667e-9 cbs=2.34e-13 cbd=2.34e-13) .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .ends OPAMP12 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************ .subckt OPAMP3 1 2 3 4 5 ************************************ c1 11 12 385.88E-15 c2 6 7 2.00E-12 css 10 99 1.000E-30 dc 5 53 dy de 54 5 dy 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 6.3662E9 -1E3 1E3 6E9 -6E9 ga 6 0 11 12 6.2832E-6 gcm 0 6 10 99 6.2832E-12 iss 3 10 dc 450.00E-9 hlim 90 0 vlim 1K m1 11 2 10 3 mp l=1E-6 w=10E-6 m=1 m2 12 1 10 3 mp l=1E-6 w=10E-6 m=1 r2 6 9 100.00E3 rd1 4 11 159.15E3 rd2 4 12 159.15E3 ro1 8 5 50 ro2 7 99 25 rp 3 4 357.14E3 rss 10 99 666.67E6 vb 9 0 dc 0 vc 3 53 dc .8047 ve 54 4 dc .8047 vlim 7 8 dc 0 vlp 91 0 dc 12 vln 0 92 dc 12 .model mp pmos(vto=-0.75 kp=205.5u rd=1 rs=1 rg=1 rb=1 cgso=4e-9 +cgdo=4e-9 cgbo=16.667e-9 cbs=2.34e-13 cbd=2.34e-13) .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .ends OPAMP3 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 14, 00 * MODEL FORMAT: SPICE2 .MODEL Qmmbt3906tt1 pnp +IS=7.75521e-12 BF=194.093 NF=1.35509 VAF=156.436 +IKF=0.0660057 ISE=1.88546e-12 NE=1.81673 BR=3.41317 +NR=1.5 VAR=5.86061 IKR=1.70599 ISC=7.64281e-10 +NC=1.92376 RB=6.48961 IRB=0.1 RBM=0.1 +RE=0.0001 RC=2.45044 XTB=0.1 XTI=1 +EG=1.05 CJE=6.11928e-12 VJE=0.4 MJE=0.248812 +TF=5.21843e-10 XTF=0.932702 VTF=9.1046 ITF=0.0106472 +CJC=6.85007e-12 VJC=0.4 MJC=0.279018 XCJC=0.9 +FC=0.478887 CJS=0 VJS=0.75 MJS=0.5 +TR=4.30605e-07 PTF=0 KF=0 AF=1 * REF3233 MACROMODEL * * REVISION A. MACROMODEL CREATED BY W. K. SANDS 1 FEB 2006 * REVISION B. NEIL P. ALBAUGH-- EDITED TO STANDARD FORMAT * REVISION C. CORRECTED GNDF CONNECTION BY W. K. SANDS 14 FEB 2006 * * BEGIN MODEL REF3233 * * BEGIN NOTES * * MODEL TEMPERATURE RANGE IS -55 TO +125 DEG C. * NOTE THAT THE MODEL IS FUNCTIONAL OVER THIS RANGE * BUT NOT ALL PARAMETERS MAY TRACK THOSE OF THE REAL PART * OUTPUT VOLTAGE TEMPERATURE COEEFICIENT IS NOT THE SAME * SHAPE AS THAT OF THE PART BUT IS LINEAR VS TEMPERATURE * WITH A SLOPE OF 10.5 PPM / DEG C * * END NOTES * * BEGIN MODEL FEATURES * * OUTPUT VOLTAGE * LINE REGULATION * LOAD REGULATION * PSRR VS FREQUENCY * OUTPUT IMPEDANCE * DEVICE ENABLE * QUIESCENT CURRENT ENABLED * QUIESCENT CURRENT SHUTDOWN * LINE TRANSIENT RESPONSE * LOAD TRANSIENT RESPONSE * OUTPUT CURRENT FLOWING THROUGH SUPPLY * OUTPUT CURRENT LIMIT * STEP RESPONSE AT START-UP * OUTPUT VOLTAGE NOISE VS FREQ * DROPOUT VOLTAGE * * END MODEL FEATURES * * PINOUT ORDER GNDF GNDS EN IN OUTS OUTF * PINOUT ORDER 1 2 3 4 5 6 .SUBCKT REF3233 1 2 3 4 5 6 R77 120 5 218.770E3 R78 2 120 125E3 Q20 98 99 100 QLN R3 101 102 2 R4 103 102 2 R10 104 99 100 R11 105 106 100 R12 107 4 1.56 R13 1 108 1.56 R16 110 111 6E6 R17 112 113 1.56 R18 100 114 1.56 D7 115 0 DIN D8 116 0 DIN I8 0 115 0.1E-3 I9 0 116 0.1E-3 E2 100 0 1 0 1 E3 113 0 4 0 1 D9 117 0 DVN D10 118 0 DVN I10 0 117 0.2E-6 I11 0 118 0.2E-6 E4 119 120 117 118 2.3 G2 121 120 115 116 2.8E-7 R28 122 123 10E3 E5 124 1 113 1 1 E6 125 1 100 1 1 E7 126 1 127 1 1 R30 124 128 1E6 R31 125 129 1E6 R32 126 130 1E6 R33 1 128 100 R34 1 129 100 R35 1 130 100 E10 131 190 130 1 0.34 R36 132 127 1E3 R37 127 133 1E3 C6 124 128 20E-12 C7 125 129 0.2E-12 C8 126 130 2E-12 E11 134 131 129 1 0.15 E12 121 134 128 1 0.08 E14 135 100 113 100 0.5 D11 110 113 DD D12 100 110 DD M1 136 137 108 108 NOUT L=3U W=5000U M2 138 139 107 107 POUT L=3U W=5000U M3 140 140 112 112 POUT L=3U W=5000U M4 141 142 101 101 HVP L=3U W=300U M5 143 144 103 103 HVP L=3U W=300U M8 145 145 114 114 NOUT L=3U W=5000U R43 146 139 100 R44 147 137 100 G3 110 135 148 135 0.2E-5 R45 135 110 6E9 C12 111 6 1.35E-12 R46 100 141 2.05E3 R47 100 143 2.05E3 C13 141 143 1E-12 C14 121 0 4.5E-12 C15 119 0 4.5E-12 C16 6 0 10E-12 D13 137 98 DD D14 149 139 DD Q15 149 105 113 QLP V18 121 150 0 M16 151 152 153 153 HVN L=3U W=300U R53 154 153 2 M17 155 156 157 157 HVN L=3U W=300U R54 154 157 2 R55 151 113 2.05E3 R56 155 113 2.05E3 C20 151 155 1E-12 V19 150 158 0 M18 159 160 161 161 PIN L=6U W=500U M19 162 163 113 113 PIN L=6U W=500U V20 113 160 1 M21 154 159 100 100 NIN L=6U W=500U M22 159 159 100 100 NIN L=6U W=500U G6 110 135 164 135 0.2E-5 E17 133 0 121 1 1 E18 132 0 120 1 1 M23 163 163 113 113 PIN L=6U W=500U V21 162 102 0 R59 6 138 5 R60 136 6 5 J1 113 121 113 JC J2 113 119 113 JC J3 119 100 119 JC J4 121 100 121 JC C21 121 119 3.5E-12 E19 165 135 155 151 1 R61 165 164 10E3 C22 164 135 1E-12 E20 166 135 143 141 1 R62 166 148 10E3 C23 148 135 1E-12 G7 167 135 110 135 -1E-3 G8 135 168 110 135 1E-3 G9 135 169 145 100 1E-3 G10 170 135 113 140 1E-3 D17 170 167 DD D18 168 169 DD R66 167 170 100E6 R67 169 168 100E6 R68 170 113 1E3 R69 100 169 1E3 E23 113 146 113 170 1 E24 147 100 169 100 1 R70 168 135 1E6 R71 169 135 1E6 R72 135 170 1E6 R73 135 167 1E6 V23 171 0 1.2 C27 139 138 70E-15 C28 136 137 70E-15 I22 121 0 1E-12 I23 119 0 1E-12 R76 161 162 6.5E3 E25 113 106 4 107 17 E26 104 1 108 1 17 C29 120 172 5E-12 R79 172 5 500 C30 122 0 10E-12 M24 173 174 0 0 HTX L=3U W=300U R80 173 175 1E5 M25 176 173 0 0 HTR L=3U W=30U R81 176 175 1E6 V25 175 0 5 C31 176 0 30E-12 M26 177 176 0 0 HTS L=3U W=30U R82 177 175 1E6 M27 122 177 0 0 HTR L=3U W=3000U M28 110 177 135 135 HTR L=3U W=3000U M29 178 177 0 0 HTR L=3U W=3000U E28 123 171 179 0 -7.2E-3 I24 0 180 1E-3 D21 180 0 DD V27 180 179 0.65 R83 0 179 1E6 C32 110 6 0.3E-12 E29 174 0 113 1 1 R84 0 174 1E12 R85 0 174 1E12 R86 144 119 20E3 R87 150 142 20E3 R88 156 119 20E3 R89 152 158 20E3 R90 140 113 1E12 R91 100 145 1E12 R93 163 113 1E12 G14 163 100 97 0 45E-6 G15 140 145 97 0 5.5E-6 R94 178 5 1E9 M30 176 181 0 0 HTT L=3U W=3000U M31 182 181 0 0 HTT L=3U W=3000U V29 183 0 1 R95 182 183 1E6 V30 97 182 -14E-6 I25 184 1 100E-12 C33 3 0 3E-12 M32 184 184 4 4 PIN L=6U W=500U M33 185 184 4 4 PIN L=6U W=500U I27 4 1 0.1E-6 G16 4 1 97 0 82.9E-6 D22 185 3 DD R97 134 121 1E9 R98 131 134 1E9 R99 190 131 1E9 R100 0 123 1E9 R103 0 97 1E9 M34 181 3 1 1 HTT L=3U W=3000U R104 181 183 1E6 R105 184 4 1E12 E30 190 122 2 1 1 R106 190 122 1E9 D23 1 2 DG D24 2 1 DG .MODEL HTR NMOS KP=200U VTO=1.5 IS=1E-18 .MODEL HTS NMOS KP=200U VTO=2.7 IS=1E-18 .MODEL HTT NMOS KP=200U VTO=0.7 IS=1E-18 .MODEL HTX NMOS KP=200U VTO=0.7 IS=1E-18 .MODEL DVN D KF=1.05E-16 IS=1E-16 .MODEL DIN D .MODEL DD D .MODEL DG D RS=3 .MODEL JC NJF IS=1E-18 .MODEL QLN NPN .MODEL QLP PNP .MODEL POUT PMOS KP=200U VTO=-0.7 IS=1E-18 .MODEL NOUT NMOS KP=200U VTO=0.7 IS=1E-18 .MODEL PIN PMOS KP=200U VTO=-0.7 IS=1E-18 .MODEL NIN NMOS KP=200U VTO=0.7 IS=1E-18 .MODEL HVP PMOS KP=200U VTO=-0.7 IS=1E-18 .MODEL HVN NMOS KP=200U VTO=0.7 IS=1E-18 .ENDS * END MODEL REF3233 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 Aug 14, 03 * MODEL FORMAT: SPICE2 * Symmetry POWER MOS Model (Version 1.0) .SUBCKT Xntd2955 1 2 3 * 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=-2.86544 LAMBDA=0.0140305 KP=2.32017 +CGSO=4.56951e-06 CGDO=3.22755e-07 RS 8 3 0.0564387 D1 1 3 MD .MODEL MD D IS=1p RS=0.0225659 N=5.33702 BV=60 +IBV=0.00025 EG=1 XTI=0 TT=5e-08 +CJO=4.73424e-10 VJ=2.21855 M=0.617796 FC=0.5 RDS 3 1 6e+10 RD 9 1 0.0214701 RG 2 7 22.0275 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=5.53557e-10 VJ=0.499526 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=0.399969 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 1.03015e-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=0.399969 .ENDS Xntd2955 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 5, 03 * MODEL FORMAT: PSpice * Symmetry POWER MOS Model (Version 1.0) .SUBCKT ntr1p02lt1 1 2 3 * 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=-1.05763 LAMBDA=0.0209372 KP=4.65515 +CGSO=1.96123e-06 CGDO=7.00645e-08 RS 8 3 0.0001 D1 1 3 MD .MODEL MD D IS=9.60344e-09 RS=0.189422 N=1.5 BV=20 +IBV=1e-05 EG=1.2 XTI=3.45737 TT=0 +CJO=2.12494e-10 VJ=0.5 M=0.364238 FC=0.5 RDS 3 1 1e+06 RD 9 1 0.0001 RG 2 7 18.6925 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=2.3198e-10 VJ=1.07814 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=0.4 RS=3.00011e-06 RL 5 10 1 FI2 7 9 VFI2 -1 VFI2 4 0 0 EV16 10 0 9 7 1 CAP 11 10 5.24462e-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 ntr1p02lt1 *------------------------------------------------------------------- *------------------------------------------------------------------- * BEGIN MODEL OPA379 * * MODEL CREATED BY W.K. SANDS 6 APRIL 2006 * FILE EDITED TO STANDARD FORMAT BY NEIL P. ALBAUGH 21 APRIL 2006 * * BEGIN NOTES * * MODEL TEMP RANGE IS -40 TO +125 DEG C. * NOTE THAT THE MODEL IS FUNCTIONAL OVER THIS RANGE * BUT NOT ALL PARAMETERS TRACK THOSE OF THE REAL PART. * * FOR ACCURATE BIAS CURRENT SET ABSTOL TO 1E-13 OR AS LOW AS * ALLOWS CONVERGANCE IN YOUR CIRCUIT. * * END NOTES * * BEGIN MODEL FEATURES * * OPEN LOOP GAIN AND PHASE * INPUT VOLTAGE NOISE * INPUT CURRENT NOISE * INPUT BIAS CURRENT * INPUT CAPACITANCE * INPUT COMMON MODE VOLTAGE RANGE * INPUT CLAMPS TO RAILS * CMRR WITH FREQUENCY EFFECTS * PSRR WITH FREQUENCY EFFECTS * SLEW RATE * QUIESCENT CURRENT * QUIESCENT CURRENT VS VOLTAGE * QUIESCENT CURRENT VS TEMPERATURE * RAIL TO RAIL OUTPUT STAGE * HIGH CLOAD EFFECTS * CLASS AB BIAS IN OUTPUT STAGE * OUTPUT CURRENT THROUGH SUPPLIES * OUTPUT CURRENT LIMITING * OUTPUT CLAMPS TO RAILS * OUTPUT SWING VS OUTPUT CURRENT * * END MODEL FEATURES * * PINOUT ORDER +IN -IN +V -V OUT * PINOUT ORDER 1 3 5 2 4 * .SUBCKT OPA379 1 3 5 2 4 * Q21 25 26 24 QNL R77 27 28 200 R78 29 28 200 R79 30 26 100 R80 31 32 100 R81 33 5 14 R82 2 34 14 R84 35 36 500 R85 37 38 14 R86 24 39 14 D21 4 5 DD D22 2 4 DD D23 40 0 DIN D24 41 0 DIN I24 0 40 0.1E-3 I25 0 41 0.1E-3 E25 24 0 2 0 1 E26 38 0 5 0 1 D25 42 0 DVN D26 43 0 DVN I26 0 42 0.1E-3 I27 0 43 0.1E-3 E27 44 3 42 43 0.15 G13 45 3 40 41 2E-9 E28 46 0 38 0 1 E29 47 0 24 0 1 E30 48 0 49 0 1 R88 46 50 1E6 R89 47 51 1E6 R90 48 52 1E6 R91 0 50 100 R92 0 51 100 R93 0 52 100 E31 53 1 52 0 0.002 R94 54 49 1E3 R95 49 55 1E3 C29 46 50 0.2E-12 C30 47 51 0.2E-12 C31 48 52 10E-12 E32 56 53 51 0 -0.02 E33 45 56 50 0 0.02 E34 57 24 38 24 0.5 D27 35 38 DD D28 24 35 DD M24 58 59 34 34 NOUT L=3U W=200U M25 60 61 33 33 POUT L=3U W=200U M26 62 62 37 37 POUT L=3U W=200U M27 63 64 27 27 PIN L=3U W=83U M28 65 44 29 29 PIN L=3U W=83U M29 66 66 39 39 NOUT L=3U W=200U R96 67 61 100 R97 68 59 100 G14 35 57 69 57 0.02E-3 R98 57 35 3E9 C32 36 4 8.27E-12 R99 24 63 2.6E3 R100 24 65 2.6E3 C33 63 65 120E-12 C34 45 0 1.8E-12 C35 44 0 1.8E-12 C36 4 0 1E-12 D29 59 25 DD D30 70 61 DD Q22 70 31 38 QPL V27 45 64 0 M30 71 72 73 73 NIN L=3U W=83U R101 74 73 200 M31 75 44 76 76 NIN L=3U W=83U R102 74 76 200 R103 71 38 2.6E3 R104 75 38 2.6E3 C37 71 75 120E-12 V28 64 72 5E-3 M32 77 78 79 79 PINT L=6U W=500U M33 80 23 38 38 PIN L=6U W=500U V29 38 78 1.07 M34 74 77 24 24 NIN L=6U W=500U M35 77 77 24 24 NIN L=6U W=500U G15 35 57 81 57 0.02E-3 I28 62 66 0.5E-6 E35 55 0 45 0 1 E36 54 0 3 0 1 M36 23 23 38 38 PIN L=6U W=500U I29 23 24 2.3E-12 V30 80 28 0 R105 4 60 25 R106 58 4 25 J5 82 45 82 JC J6 82 44 82 JC J7 44 83 44 JC J8 45 83 45 JC C38 45 44 0.2E-12 E37 84 57 75 71 1 R107 84 81 10E3 C39 81 57 40E-12 E38 85 57 65 63 1 R108 85 69 10E3 C40 69 57 40E-12 G16 86 57 35 57 -1E-3 G17 57 87 35 57 1E-3 G18 57 88 66 24 1E-3 G19 89 57 38 62 1E-3 D31 89 86 DD D32 87 88 DD R110 86 89 1E8 R111 88 87 1E8 R112 89 38 1E3 R113 24 88 1E3 E39 38 67 38 89 1 E40 68 24 88 24 1 R114 87 57 1E10 R115 88 57 1E10 R116 57 89 1E10 R117 57 86 1E10 R118 2 5 18E6 G20 5 2 90 0 -5E-6 D33 91 0 DD V33 91 90 0.65 R119 0 90 1E6 I31 5 2 1.8E-6 R120 79 80 60E3 I34 0 91 1E-3 V45 38 82 0.3 V46 83 24 0.3 E42 5 32 5 33 3 E43 30 2 34 2 4 R169 35 4 3E11 G29 23 24 92 0 2.3E-6 V134 92 93 1 R378 0 92 1E12 D64 93 94 DD V135 94 0 0.5 R379 95 93 1E3 D65 96 95 DD R380 0 95 1E6 D66 97 95 DD R381 95 96 1E12 R382 95 97 1E12 E119 96 0 1 3 20 E120 97 0 1 3 -20 R391 0 92 1E12 R394 0 94 1E12 G35 45 0 98 0 10E-12 I41 45 0 0.5E-12 I46 0 99 1E-3 D67 99 0 DD V136 99 100 0.7 R395 0 100 1E6 E121 101 0 100 0 -571 R396 0 101 1E6 R397 102 101 1E6 D68 103 102 DD V137 103 104 27 V138 102 98 26.4 I47 0 105 1E-3 D69 105 0 DD V139 105 106 0.7 R398 0 106 1E6 E122 104 0 106 0 1 G36 3 0 98 0 10E-12 I48 3 0 0.5E-12 R399 0 98 1E9 R400 0 98 1E9 R401 1 53 1E9 R402 53 56 1E9 R403 56 45 1E9 R404 3 44 1E9 R405 81 81 1E9 R406 57 69 1E9 R407 62 38 1E11 R408 24 66 1E11 R409 33 61 1E11 R410 59 34 1E11 .MODEL JC NJF IS=1E-18 .MODEL DVN D KF=7E-14 IS=1E-16 .MODEL DIN D .MODEL DD D .MODEL DE D IS=3E-17 .MODEL QPL PNP .MODEL QNL NPN .MODEL POUT PMOS KP=200U VTO=-0.7 .MODEL NOUT NMOS KP=200U VTO=0.7 .MODEL PIN PMOS KP=200U VTO=-0.7 .MODEL NIN NMOS KP=200U VTO=0.7 .MODEL PINT PMOS KP=200U VTO=-0.7 LAMBDA=0.01 .ENDS * END MODEL OPA379 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 Aug 3, 04 * MODEL FORMAT: PSpice * Symmetry POWER MOS Model (Version 1.0) .SUBCKT ntd18n06l 1 2 3 * 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=1.98948 LAMBDA=0 KP=21.272 +CGSO=4.18085e-06 CGDO=8.56633e-08 RS 8 3 0.0375073 D1 3 1 MD .MODEL MD D IS=8.82716e-09 RS=0.00616994 N=1.5 BV=60 +IBV=0.00025 EG=1 XTI=2.2423 TT=0 +CJO=5.77207e-10 VJ=0.656334 M=0.448458 FC=0.5 RDS 3 1 2.4e+11 RD 9 1 0.0001 RG 2 7 17.1584 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=6.54462e-10 VJ=1.69471 M=0.891807 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=0.400114 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 6.54462e-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=0.400114 .ENDS ntd18n06l *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 generated on Jun 22, 2004 * MODEL FORMAT: PSPICE .SUBCKT d1n5364brl 2 1 * anode cathode *node: 2 1 * Forward Section D1 2 1 MD1 .MODEL MD1 D IS=1.53614e-17 N=1 XTI=1 RS=0.1 + CJO=1e-11 TT=1e-08 * Leakage Current R 1 2 5.02e+07 MDR .MODEL MDR R TC1=0 TC2=0 * Breakdown RZ 2 3 8.71503 IZG 4 3 0.1728 R4 4 3 500 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=1.32555 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=1.59062 XTI=0 EG=0.1 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 32531.6 MDRBV .MODEL MDRBV R TC1=8.79e-08 *-- SPICE3 DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS d1n5364brl *------------------------------------------------------------------- *------------------------------------------------------------------- * ------------------------------------------------------------------------ * | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; | * | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR | * | OMISSIONS. BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS | * | INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT | * | THE USER'S OWN RISK. NO PATENT RIGHTS OR LICENSES TO ANY OF THE | * | CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY. | * | BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR | * | USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS. | * ------------------------------------------------------------------------ * * INA138 Current Shunt Monitor Macromodel Subcircuit * * REV A CREATED BY DAVID JONES 28 June 2000 * REV B CREATED BY NEIL ALBAUGH 10 OCT 2000 REVISED TO STANDARD FORMAT * * connections: Vin+ * | Vin- * | | Vs * | | | gnd * | | | | output * | | | | | .subckt INA138cte + - Vs GND OUT * * C01 1N1030 1N1653 CAP 5PF D1 + VESD EDD D2 GND + EDD D3 - VESD EDD D4 GND - EDD D5 Vs VESD EDD D6 GND Vs EDD D7 OUT VESD EDD D8 GND OUT EDD I1 1N1819 GND 2UA ;NOT4ECAD I2 1N940 GND 2UA ;NOT4ECAD I3 1N1033 GND 2UA ;NOT4ECAD I4 1N1833 GND 8UA ;NOT4ECAD Q01 1N1107 1N1819 INP PNP Q22 VO 1N1833 Vs PNP Q23 1N1833 1N1833 Vs PNP Q02 1N1030 1N1819 INN PNP Q03 1N1819 1N1819 INP PNP Q04 1N1819 1N1819 INN PNP Q07 1N1107 1N940 GND NPN Q08 1N1030 1N940 GND NPN Q09 Vs 1N1107 1N940 NPN Q10 Vs 1N1030 1N1033 NPN Q11 VO 1N1033 GND NPN Q20 INP VO 1N1673 NPN Q21 1N1673 1N1673 VO NPN R11 1N1653 VO FILM 3K R20 1N1673 OUT FILM 5K RG1 + INP FILM 5K RG2 - INN FILM 5K * .MODEL NPN NPN +IS=1FA BF=250 VAF=1000 +CJE=.5PF CJC=.2PF TF=300PS * .MODEL PNP LPNP +IS=1.25FA BF=250 VAF=1000 +CJE=.13PF CJC=.6PF TF=50NS * .model EDD D(Is=3.0E-14 BV=90 Rs=10) .MODEL FILM RES (R=1 TC1=.000050) .MODEL CAP CAP (C=1 TC1=0) .ENDS INA138cte *------------------------------------------------------------------- *------------------------------------------------------------------- * ------------------------------------------------------------------------ * | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; | * | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR | * | OMISSIONS. BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS | * | INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT | * | THE USER'S OWN RISK. NO PATENT RIGHTS OR LICENSES TO ANY OF THE | * | CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY. | * | BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR | * | USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS. | * ------------------------------------------------------------------------ * * INA168 Current Shunt Monitor Macromodel Subcircuit * * REV A CREATED BY DAVID JONES 28 June 2000 * REV B CREATED BY NEIL ALBAUGH 12 OCT 2000 REVISED TO STANDARD FORMAT * * connections: Vin+ * | Vin- * | | Vs * | | | gnd * | | | | output * | | | | | .subckt INA168cte + - Vs GND OUT * * C01 1N1030 1N1653 CAP 5PF D1 + VESD EDD D2 GND + EDD D3 - VESD EDD D4 GND - EDD D5 Vs VESD EDD D6 GND Vs EDD D7 OUT VESD EDD D8 GND OUT EDD I1 1N1819 GND 2UA ;NOT4ECAD I2 1N940 GND 2UA ;NOT4ECAD I3 1N1033 GND 2UA ;NOT4ECAD I4 1N1833 GND 8UA ;NOT4ECAD Q01 1N1107 1N1819 INP PNP Q22 VO 1N1833 Vs PNP Q23 1N1833 1N1833 Vs PNP Q02 1N1030 1N1819 INN PNP Q03 1N1819 1N1819 INP PNP Q04 1N1819 1N1819 INN PNP Q07 1N1107 1N940 GND NPN Q08 1N1030 1N940 GND NPN Q09 Vs 1N1107 1N940 NPN Q10 Vs 1N1030 1N1033 NPN Q11 VO 1N1033 GND NPN Q20 INP VO 1N1673 NPN Q21 1N1673 1N1673 VO NPN R11 1N1653 VO FILM 3K R20 1N1673 OUT FILM 5K RG1 + INP FILM 5K RG2 - INN FILM 5K * .MODEL NPN NPN +IS=1FA BF=250 VAF=1000 +CJE=.5PF CJC=.2PF TF=300PS * .MODEL PNP LPNP +IS=1.25FA BF=250 VAF=1000 +CJE=.13PF CJC=.6PF TF=50NS * .model EDD D(Is=3.0E-14 BV=90 Rs=10) .MODEL FILM RES (R=1 TC1=.000050) .MODEL CAP CAP (C=1 TC1=0) .ENDS INA168cte *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 * ************************************** .SUBCKT 1smb5919bt3 2 1 * Model generated on Jan 23, 03 * MODEL FORMAT: PSpice * anode cathode *node: 2 1 * Forward Section D1 2 1 MD1 .MODEL MD1 D IS=6.39889e-20 N=1 XTI=1 RS=1 + CJO=1.3e-09 TT=1e-08 * Leakage Current R 1 2 MDR 1.2e+06 .MODEL MDR RES TC1=0 TC2=0 * Breakdown RZ 2 3 0.0393568 IZG 4 3 0.3204 R4 4 3 60 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=1.88343 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=2.50903 XTI=0 EG=0.1 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 MDRBV 5274.18 .MODEL MDRBV RES TC1=0.000398166 *-- PSpice DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS 1smb5919bt3 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT 1smb5920bt3 2 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 Jan 23, 03 * MODEL FORMAT: PSpice * anode cathode *node: 2 1 * Forward Section D1 2 1 MD1 .MODEL MD1 D IS=6.39889e-20 N=1 XTI=1 RS=1 + CJO=1.1e-09 TT=1e-08 * Leakage Current R 1 2 MDR 1.6e+06 .MODEL MDR RES TC1=0 TC2=0 * Breakdown IZG 4 2 0.2892 R4 4 2 60 D3 2 4 MD3 .MODEL MD3 D IS=2.5e-12 N=1.88999 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=2.51324 XTI=0 EG=0.1 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 MDRBV 5885.23 .MODEL MDRBV RES TC1=0.000509886 *-- PSpice DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS 1smb5920bt3 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 * ************************************** .SUBCKT 1smb5940bt3 2 1 * Model generated on Jan 23, 03 * MODEL FORMAT: PSpice * anode cathode *node: 2 1 * Forward Section D1 2 1 MD1 .MODEL MD1 D IS=6.39889e-20 N=1 XTI=1 RS=1 + CJO=2e-10 TT=1e-08 * Leakage Current R 1 2 MDR 6.54e+07 .MODEL MDR RES TC1=0 TC2=0 * Breakdown RZ 2 3 14.8836 IZG 4 3 0.0408 R4 4 3 2100 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=5.79316 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=7.56316 XTI=0 EG=0.1 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 MDRBV 42061.4 .MODEL MDRBV RES TC1=0.00102231 *-- PSpice DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS 1smb5940bt3 *------------------------------------------------------------------- *------------------------------------------------------------------- ************************************** * 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 * ************************************** .SUBCKT bss84lt1 1 2 3 * Model generated on Aug 26, 03 * MODEL FORMAT: PSpice * 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=-1.9626 LAMBDA=0.0841342 KP=0.906638 +CGSO=3.56888e-07 CGDO=4.08712e-08 RS 8 3 1.58065 D1 1 3 MD .MODEL MD D IS=3.75526e-06 RS=1.63564 N=4.64109 BV=50 +IBV=0.00025 EG=0.1 XTI=9.92732e-06 TT=2e-08 +CJO=1.26893e-11 VJ=2.98729 M=0.88599 FC=0.1 RDS 3 1 1e+10 RD 9 1 2.39078 RG 2 7 1.87161 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=5.30156e-12 VJ=0.525584 M=0.863499 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=0.36038 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 3.11194e-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=0.36038 .ENDS bss84lt1 *------------------------------------------------------------------- *------------------------------------------------------------------- ***************************************************************** * INFINEON Power Transistors * * PSPICE Library for n-channel and p-channel transistors * * (simplified models, also suitable for other Spice variants) * * Version 220305 * * * ***************************************************************** * simulation support: simulate@infineon.com * * * * internet : www.infineon.com/simulate * ***************************************************************** .SUBCKT BSS159N_L0 drain gate source Lg gate g1 3n Ld drain d1 1n Ls source s1 3n Rs s1 s2 0.074 Rg g1 g2 25 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 0.241 VTO=-2.05 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d2 d1a 1.08 TC=9m .MODEL MVDR NMOS (KP=1.5 VTO=-1.4 LAMBDA=0.1) Mr d1 d2a d1a d1a MVDR W=1u L=1u Rx d2a d1a 1m Dbd s2 d2 Dbt .MODEL Dbt D(BV=72 M=0.38 CJO=15.99p VJ=0.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=20p N=1.3 RS=1023u EG=1.12 TT=50n) Rdiode d1 21 300m TC=0 .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 55.9p .MODEL DGD D(M=0.72 CJO=55.9p VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 29.25p .ENDS BSS159N_L0 *------------------------------------------------------------------- *------------------------------------------------------------------- * |========================================================== * | * | * | * | TLV431A * | * | ON Semiconductor * | * | Low Voltage Precision Adjustable Shunt Regulator * | * | * | * | * | This model was developed by * | * | AEI (Analytic Engineering) * | * | 182 Morris Avenue * | * | Holtsville, NY 11742 * | * | Copyright 2001 AEI * | * | All Rights Reserved * | * | * | * | The content of this model is subject to change * | * | without notice and may not be modified or altered * | * | without permission from On Semiconductor. This model * | * | has been carefully checked and is believed to be * | * | accurate, however neither AEI nor On Semiconductor * | * | assume liability for the use of this model or the * | * | results obtained from using it. * | * | * | * | For more information regarding modeling services, * | * | model libraries or simulation productors, please * | * | call AEI at (631) 654-0253 ext 116 or 106. * | * | email: Sales@aeng.com. * | * | * | * |========================================================== *SPICE_NET .AC DEC 200 10 2MEG .OP .SUBCKT TLV431 7 6 11 * K A 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 G1 6 2 1 11 0.11 VCLAMP 9 6 14.5 D3 7 9 DCL2 .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- *INCLUDE ON.LIB *ALIAS V(2)=VOUT .PRINT AC V(2) VP(2) V(1) VP(1) .PRINT AC I(V1) IP(V1) R1 1 0 8.25K R2 1 2 15K C1 1 4 9U V1 4 0 AC 1 R3 2 3 230 V2 3 0 5.8 X1 2 0 1 TL431 .DC 0 0 10 .5 .TEMP 27 .PLOT DC v(1) v(2) v(4) .END *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT Mmsz5231bt1 2 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 Jan 18, 05 * MODEL FORMAT: SPICE3 * anode cathode *node: 2 1 * Forward Section *D1 2 1 MD1 TEMP=25 *.MODEL MD1 D IS=1.78415e-09 N=2.00311 XTI=1 RS=0.409 D1 2 1 MD1 .MODEL MD1 D IS=1.78415e-09 N=2.00311 XTI=1 RS=0.409 T_ABS=25 + CJO=1.7e-10 TT=1e-08 * Leakage Current R 1 2 3.33333e+07 MDR .MODEL MDR R TC1=0 TC2=0 * Breakdown RZ 2 3 1.63212 IZG 4 3 0.24 R4 4 3 100 *D3 3 4 MD3 TEMP=25 *.MODEL MD3 D IS=2.5e-12 N=0.114452 XTI=0 EG=0.1 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=0.114452 XTI=0 EG=0.1 T_ABS=25 *D2 5 4 MD2 TEMP=25 *.MODEL MD2 D IS=2.5e-12 N=0.274444 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=0.274444 XTI=0 EG=0.1 T_ABS=25 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 4980.21 MDRBV .MODEL MDRBV R TC1=0.000235532 *-- SPICE3 DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS Mmsz5231bt1 *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT Mmsz5225bt1 2 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 Mar 4, 05 * MODEL FORMAT: SPICE3 * anode cathode *node: 2 1 * Forward Section *D1 2 1 MD1 TEMP=25 *.MODEL MD1 D IS=1.77828e-12 N=1.34509 XTI=1 RS=2.288 D1 2 1 MD1 .MODEL MD1 D IS=1.77828e-12 N=1.34509 XTI=1 RS=2.288 T_ABS=25 + CJO=3e-10 TT=1e-08 * Leakage Current R 1 2 50000 MDR .MODEL MDR R TC1=0 TC2=0 * Breakdown RZ 2 3 8.36295 IZG 4 3 0.12 R4 4 3 1100 *D3 3 4 MD3 TEMP=25 *.MODEL MD3 D IS=2.5e-12 N=5.83556 XTI=0 EG=0.1 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=5.83556 XTI=0 EG=0.1 T_ABS=25 *D2 5 4 MD2 TEMP=25 *.MODEL MD2 D IS=2.5e-12 N=9.39197 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=9.39197 XTI=0 EG=0.1 T_ABS=25 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 980.631 MDRBV .MODEL MDRBV R TC1=0.00191203 *-- SPICE3 DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS Mmsz5225bt1 *------------------------------------------------------------------- *------------------------------------------------------------------- .subckt TLV2241 1 2 3 4 5 *.subckt 224X_5V-X 1 2 3 4 5 ************************************** * Model from Texas Instruments TLV2244 Data Sheet ************************************** c1 11 12 9.8944E-12 c2 6 7 30.000E-12 cee 10 99 8.8738E-12 dc 5 53 dy de 54 5 dy 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 61.404E6 -1E3 1E3 61E6 -61E6 *FB 7 99 POLY(5) VB VC VE VLP VLN 0 61.404E9 -1E3 1E3 61E9 -61E9 ga 6 0 11 12 1.0216E-6 gcm 0 6 10 99 10.216E-12 iee 10 4 dc 54.540E-9 ioff 0 6 dc 5e-12 hlim 90 0 vlim 1K q1 11 2 13 qx1 q2 12 1 14 qx2 r2 6 9 100.00E3 rc1 3 11 978.81E3 rc2 3 12 978.81E3 re1 13 10 30.364E3 re2 14 10 30.364E3 ree 10 99 3.6670E9 ro1 8 5 10 ro2 7 99 10 rp 3 4 1.4183E6 vb 9 0 dc 0 vc 3 53 dc .88315 ve 54 4 dc .88315 vlim 7 8 dc 0 vlp 91 0 dc 540 vln 0 92 dc 540 .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .model qx1 NPN(Is=800.00E-18 Bf=27.270E21) .model qx2 NPN(Is=800.0000E-18 Bf=27.270E21) .ends *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT d1n5927brl 2 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 * * Modeling services provided by * * Interface Technologies www.i-t.com * ************************************** * Model generated on Jun 22, 2004 * MODEL FORMAT: SPICE3 * anode cathode *node: 2 1 * Forward Section D1 2 1 MD1 .MODEL MD1 D IS=1.33275e-21 N=1 XTI=1 RS=0.1 + CJO=1e-11 TT=1e-08 * Leakage Current R 1 2 9.1e+06 MDR .MODEL MDR R TC1=0 TC2=0 * Breakdown RZ 2 3 4.79049 IZG 4 3 0.15 R4 4 3 325 D3 3 4 MD3 .MODEL MD3 D IS=2.5e-12 N=1.29085 XTI=0 EG=0.1 D2 5 4 MD2 .MODEL MD2 D IS=2.5e-12 N=1.7259 XTI=0 EG=0.1 EV1 1 5 6 0 1 IBV 0 6 0.001 RBV 6 0 11633.9 MDRBV .MODEL MDRBV R TC1=5.83e-08 *-- SPICE3 DIODE MODEL DEFAULT PARAMETER * VALUES ARE ASSUMED *IS=1E-14 RS=0 N=1 TT=0 CJO=0 *VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5 *KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27 .ENDS d1n5927brl *------------------------------------------------------------------- *------------------------------------------------------------------- *Zetex FZT605 Spice Model v1.0 Last revision 27/04/05 * .SUBCKT FZT605 1 2 3 * C B E Q1 1 2 4 SUB605 Q2 1 4 3 SUB605 3.46 * .MODEL SUB605 NPN IS=4.8E-14 BF=170 VAF=542 NF=1.0039 IKF=0.2 ISE=1.5E-14 +NE=1.55 BR=12 VAR=20 NR=1.007 IKR=0.35 ISC=7.486E-14 NC=1.0984 RB=0.17 RE=0.3 +RC=0.14 CJE=81E-12 CJC=10.8E-12 VJC=0.58 MJC=0.41 TF=1.024E-9 TR=700E-9 .ENDS FZT605 *------------------------------------------------------------------- *------------------------------------------------------------------- *$ * * (c) 2005 Zetex Semiconductors plc * * The copyright in these models and the designs embodied belong * to Zetex Semiconductors plc (" Zetex "). They are supplied * free of charge by Zetex for the purpose of research and design * and may be used or copied intact (including this notice) for * that purpose only. All other rights are reserved. The models * are believed accurate but no condition or warranty as to their * merchantability or fitness for purpose is given and no liability * in respect of any use is accepted by Zetex PLC, its distributors * or agents. * * Zetex Semiconductors plc, Zetex Technology Park, Chadderton, * Oldham, United Kingdom, OL9 9LL .model BSS139 NMOS(Level=3 Gamma=0 Delta=0 Eta=0 Theta=0 Kappa=0.2 Vmax=0 Xj=0 + Tox=2u Uo=600 Phi=.6 Kp=1.076u W=.12 L=2u Rs=1 Vto=-1.66 Rd=80 + Rds=2.273K Cgso=4p Cgdo=1p Cbd=14.47p Mj=.3502 Pb=2.061 Fc=.5 + Rg=0 Is=10f N=1 Rb=1m) ************************************** * 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 5, 03 * MODEL FORMAT: SPICE3 .MODEL mmbt5551lt1 npn +IS=3.46149e-13 BF=350.458 NF=0.973913 VAF=10 +IKF=0.0038494 ISE=7.19337e-09 NE=3.45613 BR=30.271 +NR=0.963344 VAR=92.7807 IKR=1e-05 ISC=1.01e-16 +NC=1 RB=18.0159 IRB=0.1 RBM=0.1 +RE=0.000897475 RC=0.67305 XTB=0.39003 XTI=1 +EG=1.05 CJE=1.77737e-11 VJE=0.99 MJE=0.480346 +TF=4.42886e-10 XTF=0.800691 VTF=8.53917 ITF=0.00614298 +CJC=7.55602e-12 VJC=0.4 MJC=0.340501 XCJC=0.9 +FC=0.466967 CJS=0 VJS=0.75 MJS=0.5 +TR=8.75632e-08 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 May 30, 03 * MODEL FORMAT: SPICE3 .MODEL mmbt5401lt1 pnp +IS=8.9173e-13 BF=200.269 NF=1.11247 VAF=10 +IKF=0.0531326 ISE=1.97547e-11 NE=1.82026 BR=0.1 +NR=1.27676 VAR=2.39816 IKR=0.100005 ISC=2.93696e-13 +NC=3.99992 RB=0.101969 IRB=0.199964 RBM=0.100205 +RE=0.00010215 RC=2.18426 XTB=0.1 XTI=1 +EG=1.05 CJE=6.2128e-11 VJE=0.642095 MJE=0.419943 +TF=3.85478e-10 XTF=0.871471 VTF=9.1687 ITF=0.0112512 +CJC=2.98265e-11 VJC=0.95 MJC=0.647107 XCJC=0.9 +FC=0.338113 CJS=0 VJS=0.75 MJS=0.5 +TR=1.54439e-06 PTF=0 KF=0 AF=1 .SUBCKT internalopamp OpAmpIn+ OpAmpIn- OpAmpOut Vs+ Vs- *Input Stage and Secondary Pole I1 VS+ 4 DC 2uAdc Q1 8 5 4 QPI Q2 9 OPAMPIN+ 4 QPI R1 VS- 8 100k R2 VS- 9 100k C2 8 9 7.96e-19 *Primary Gain Stage Ggain 98 12 8 9 1e-3 R11 98 12 1e8 *OpAmp Dominant Pole and Voltage Limiting Clamps Gdp 98 13 12 98 1e-6 R8 98 13 1e6 C1 98 13 3.957e-7 D5 13 20 DX D6 21 13 DX V1 VS+ 20 0.670Vdc V2 21 VS- 0.625Vdc *Output Stage G2 98 OPAMPOUT 13 98 2e-2 R9 OPAMPOUT VS+ 150k R10 VS- OPAMPOUT 150k V5 VS+ 15 0.670v V6 14 VS- 0.625 D3 OPAMPOUT 15 DX D4 14 OPAMPOUT DX *VOS V7 VS+ 11 .8Vdc V8 10 VS- .8Vdc D7 7 11 DX D8 10 7 DX EOS 5 OPAMPIN- Poly(1) 7 98 4e-6 1 *Common-Mode Rejection Stage R3 6 OPAMPIN- 5e6 R4 OPAMPIN+ 6 5e6 R7 7 2 1 Gcm 98 7 6 98 1e-9 L1 2 98 7.957e-3H * Reference Voltage R5 3 VS+ 211.7647k R6 VS- 3 211.7647k E1 98 VS- 3 VS- 1 .model QPI PNP .model DX D .ENDS internalopamp *------------------------------------------------------------------- *------------------------------------------------------------------- * TLV2211 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 04/26/96 AT 12:39 * REV (N/A) 3 VOLT MODEL * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | .SUBCKT TLV2211 1 2 3 4 5 * C1 11 12 10.86E-12 C2 6 7 50.00E-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 3.006E6 -3E6 3E6 3E6 -3E6 GA 6 0 11 12 10.05E-6 GCM 0 6 10 99 1316.6E-12 ISS 3 10 DC 1.250E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 60 11 99.47E3 RD2 60 12 99.47E3 RO1 8 5 50 RO2 7 99 150 RP 3 4 273.5E3 RSS 10 99 160.0E6 VAD 60 4 -0.5 VB 9 0 DC 0 VC 3 53 DC .56 VE 54 4 DC .56 VLIM 7 8 DC 0 VLP 91 0 DC 0 VLN 0 92 DC 2.5 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=131.7E-6 VTO=-.02) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * TLV2211 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 04/26/96 AT 12:39 * REV (N/A) 3 VOLT MODEL (LEVEL II) * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | .SUBCKT TLV2211 1 2 3 4 5 * C1 11 12 10.86E-12 C2 6 7 50.00E-12 CPSR 85 86 159.2E-9 DCM+ 81 82 DX DCM- 83 81 DX DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX ECMR 84 99 (2,99) 1 EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 EPSR 85 0 POLY(1) (3,4) -300E-6 100E-6 ENSE 89 2 POLY(1) (88,0) 500E-6 1 FB 7 99 POLY(6) VB VC VE VLP VLN VPSR 0 3.006E6 -3E6 3E6 3E6 -3E6 1E5 GA 6 0 11 12 10.05E-6 GCM 0 6 10 99 1316.6E-12 GPSR 85 86 (85,86) 100E-6 GRD1 60 11 (60,11) 10.053E-6 GRD2 60 12 (60,12) 10.053E-6 HLIM 90 0 VLIM 1K HCMR 80 1 POLY(2) VCM+ VCM- 0 1E2 1E2 IRP 3 4 10.97E-6 ISS 3 10 DC 1.250E-6 IIO 2 0 0.5E-12 I1 88 0 1E-21 J1 11 89 10 JX J2 12 80 10 JX R2 6 9 100.0E3 RCM 84 81 1E3 RN1 88 0 1E2 RO1 8 5 50 RO2 7 99 150 VCM+ 82 99 0.2 VCM- 83 99 -1.5 RSS 10 99 160.0E6 VAD 60 4 -0.5 VB 9 0 DC 0 VC 3 53 DC .56 VE 54 4 DC .56 VLIM 7 8 DC 0 VLP 91 0 DC 0 VLN 0 92 DC 2.5 VPSR 0 86 DC 0 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=131.7E-6 VTO=-.02 KF=1.4E-17) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * TLV2211 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 04/26/96 AT 08:34 * REV (N/A) 5 VOLT MODEL * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | .SUBCKT TLV2211 1 2 3 4 5 * C1 11 12 8.86E-12 C2 6 7 50.00E-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 4.29E6 -6E6 6E6 6E6 -6E6 GA 6 0 11 12 9.425E-6 GCM 0 6 10 99 1320.2E-12 ISS 3 10 DC 1.250E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 60 11 106.1E3 RD2 60 12 106.1E3 RO1 8 5 50 RO2 7 99 150 RP 3 4 419.2E3 RSS 10 99 160.0E6 VAD 60 4 -.5 VB 9 0 DC 0 VC 3 53 DC .55 VE 54 4 DC .55 VLIM 7 8 DC 0 VLP 91 0 DC 0.1 VLN 0 92 DC 2.6 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=166.5E-6 VTO=-.004) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * TLV2211 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 04/26/96 AT 08:34 * REV (N/A) 5 VOLT MODEL (LEVEL II) * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | .SUBCKT TLV2211 1 2 3 4 5 * C1 11 12 8.86E-12 C2 6 7 50.00E-12 CPSR 85 86 159.2E-9 DCM+ 81 82 DX DCM- 83 81 DX DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX ECMR 84 99 (2,99) 1 EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 EPSR 85 0 POLY(1) (3,4) -500E-6 100E-6 ENSE 89 2 POLY(1) (88,0) 500E-6 1 FB 7 99 POLY(6) VB VC VE VLP VLN VPSR 0 4.29E6 -6E6 6E6 6E6 -6E6 1.6E5 GA 6 0 11 12 9.425E-6 GCM 0 6 10 99 1320.2E-12 GPSR 85 86 (85,86) 100E-6 GRD1 60 11 (60,11) 9.425E-6 GRD2 60 12 (60,12) 9.425E-6 HLIM 90 0 VLIM 1K HCMR 80 1 POLY(2) VCM+ VCM- 0 1E2 1E2 IRP 3 4 11.93E-6 ISS 3 10 DC 1.250E-6 IIO 2 0 0.5E-12 I1 88 0 1E-21 J1 11 89 10 JX J2 12 80 10 JX R2 6 9 100.0E3 RCM 84 81 1E3 RN1 88 0 1E2 RO1 8 5 50 RO2 7 99 150 RSS 10 99 160.0E6 VCM+ 82 99 0.7 VCM- 83 99 -2.5 VAD 60 4 -.5 VB 9 0 DC 0 VC 3 53 DC .55 VE 54 4 DC .55 VLIM 7 8 DC 0 VLP 91 0 DC 0.1 VLN 0 92 DC 2.6 VPSR 0 86 DC 0 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=166.5E-6 VTO=-.004 KF=1.4E-17) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * OPA348 SPICE Macro-model * * Rev. A 17 March 2003, by W.K. Sands * * Rev. B 18 March 2003 By Neil Albaugh: ADDED HEADER TEXT & EDITED TEXT * * This macromodel has been optimized to model the AC, DC, and transient response performance within * the device data sheet specified limits. * Correct operation of this macromodel has been verified on MicroSim P-Spice ver. 8.0 and on * PENZAR Development TopSPICE ver. 6.82d. For help with other analog simulation software, * please consult your software supplier. * * * Copyright 2003 by Texas Instruments Corporation * * * OPA348 SPICE MODEL PERFORMANCE * * MODEL FEATURES INCLUDE OPEN LOOP GAIN AND PHASE, INPUT * VOLTAGE NOISE W 1/F, INPUT CURRENT NOISE W F^2, OFFSET * CHANGE AT TRANSITION WHEN CMV NEAR POSITIVE RAIL, INPUT * BIAS CURRENT, INPUT CAPACITANCE, INPUT COMMON MODE VOLT- * AGE RANGE, INPUT CLAMPS TO RAILS, CMRR WITH FREQUENCY * EFFECTS, PSRR WITH FREQUENCY EFFECTS, SLEW RATE, QUIE- * SCENT CURRENT, QUIESCENT CURRENT VS VOLTAGE, QUIESCENT * CURRENT VS TEMPERATURE, RAIL TO RAIL OUTPUT STAGE, HIGH * CLOAD EFFECTS, CLASS AB BIAS IN OUTPUT STAGE, OUTPUT * CURRENT THROUGH SUPPLIES, OUTPUT CURRENT LIMITING, OUT- * PUT LIMIT VCC EFFECTS, OUTPUT CLAMPS TO RAILS, OUTPUT * SWING VS OUTPUT CURRENT * * MODEL TEMP RANGE IS -40 TO +125 DEG C. * * NOTE THAT THE MODEL IS FUNCTIONAL OVER THIS RANGE BUT NOT * ALL PARAMETERS MAY ACCURATELY TRACK THOSE OF THE REAL PART. * * * Begin OPA348 macromodel * * PINOUT ORDER +IN -IN +V -V OUT * PINOUT ORDER 1 3 5 2 4 * PINOUT IS FOR SC70-5 PACKAGE .SUBCKT OPA348 1 3 5 2 4 * BEGIN NOTES * FOR ACCURATE INPUT BIAS * CURRENTS, USE GMIN=1E-13 * MODEL TEMPERATURE RANGE IS * -40 C TO +125 C, NOT ALL * PARAMETERS TRACK THOSE OF * THE REAL PART VS TEMPERATURE * END NOTES * BEGIN FEATURES * OPEN LOOP GAIN AND PHASE * INPUT VOLTAGE NOISE W 1/F * INPUT CURRENT NOISE W F^2 * OFFSET CHANGE AT TRANSITION * WHEN CMV NEAR POSITIVE RAIL * INPUT BIAS CURRENT * INPUT CAPACITANCE * INPUT COMMON MODE VOLTAGE RANGE * INPUT CLAMPS TO RAILS * CMRR WITH FREQUENCY EFFECTS * PSRR WITH FREQUENCY EFFECTS * SLEW RATE * QUIESCENT CURRENT * QUIESCENT CURRENT VS VOLTAGE * QUIESCENT CURRENT VS TEMPERATURE * RAIL TO RAIL OUTPUT STAGE * HIGH CLOAD EFFECTS * CLASS AB BIAS IN OUTPUT STAGE * OUTPUT CURRENT THROUGH SUPPLIES * OUTPUT CURRENT LIMITING * OUTPUT LIMIT VCC EFFECTS * OUTPUT CLAMPS TO RAILS * OUTPUT SWING VS OUTPUT CURRENT * END FEATURES Q21 6 7 8 QNL R77 9 10 2 R78 11 10 2 R79 12 7 100 R80 13 14 100 R81 15 5 15 R82 2 16 15 R84 17 18 2.4E3 R85 19 20 15 R86 8 21 15 D21 4 5 DD D22 2 4 DD D23 22 0 DIN D24 23 0 DIN I24 0 22 0.1E-3 I25 0 23 0.1E-3 E25 8 0 2 0 1 E26 20 0 5 0 1 D25 24 0 DVN D26 25 0 DVN I26 0 24 0.1E-3 I27 0 25 0.1E-3 E27 26 3 24 25 0.75 G13 27 3 22 23 1E-6 E28 28 0 20 0 1 E29 29 0 8 0 1 E30 30 0 31 0 1 R88 28 32 1E6 R89 29 33 1E6 R90 30 34 1E6 R91 0 32 100 R92 0 33 100 R93 0 34 100 E31 35 1 34 0 -0.7 R94 36 31 1E3 R95 31 37 1E3 C29 28 32 0.2E-12 C30 29 33 0.2E-12 C31 30 34 200E-12 E32 38 35 33 0 0.55 E33 27 38 32 0 0.55 E34 39 8 20 8 0.5 D27 40 20 DD D28 8 40 DD M24 41 42 16 16 NOUT L=3U W=2000U M25 43 44 15 15 POUT L=3U W=2000U M26 45 45 19 19 POUT L=3U W=2000U M27 46 47 9 9 PIN L=3U W=90U M28 48 26 11 11 PIN L=3U W=90U M29 49 49 21 21 NOUT L=3U W=2000U R96 50 44 100 R97 51 42 100 G14 40 39 52 39 0.2E-3 R98 39 40 3E6 C32 18 4 30E-12 R99 8 46 2.05E3 R100 8 48 2.05E3 C33 46 48 18E-12 C34 27 0 5E-12 C35 26 0 5E-12 C36 4 0 1P D29 42 6 DD D30 53 44 DD Q22 53 13 20 QPL V27 27 47 0 M30 54 55 56 56 NIN L=3U W=90U R101 57 56 2 M31 58 26 59 59 NIN L=3U W=90U R102 57 59 2 R103 54 20 2.05E3 R104 58 20 2.05E3 C37 54 58 18E-12 V28 47 55 1E-3 M32 60 61 62 62 PINT L=6U W=500U M33 63 64 20 20 PIN L=6U W=500U V29 20 61 1.25 M34 57 60 8 8 NIN L=6U W=500U M35 60 60 8 8 NIN L=6U W=500U G15 40 39 65 39 0.2E-3 I28 45 49 20E-6 E35 37 0 27 0 1 E36 36 0 3 0 1 M36 64 64 20 20 PIN L=6U W=500U I29 64 8 37.5E-6 V30 63 10 0 R105 4 43 135 R106 41 4 135 J5 66 27 66 JC J6 66 26 66 JC J7 26 67 26 JC J8 27 67 27 JC C38 27 26 3E-12 E37 68 39 58 54 1 R107 68 65 10E3 C39 65 39 6E-12 E38 69 39 48 46 1 R108 69 52 10E3 C40 52 39 6E-12 G16 70 39 40 39 -1E-3 G17 39 71 40 39 1E-3 G18 39 72 49 8 1E-3 G19 73 39 20 45 1E-3 D31 73 70 DD D32 71 72 DD R110 70 73 100E6 R111 72 71 100E6 R112 73 20 1E3 R113 8 72 1E3 E39 20 50 20 73 1 E40 51 8 72 8 1 R114 71 39 1E6 R115 72 39 1E6 R116 39 73 1E6 R117 39 70 1E6 R118 2 5 1E6 G20 5 2 74 0 -46E-6 D33 75 0 DD V33 75 74 0.65 R119 0 74 1E6 I31 5 2 12.8E-6 I32 27 0 0.5E-12 I33 26 0 0.5E-12 R120 62 63 1.5E3 V43 40 17 0 H2 76 39 V43 -2.5E3 D49 40 76 DE D50 76 40 DE I34 0 75 1E-3 C45 77 26 1E-12 C46 77 27 1E-12 R122 0 77 220 E41 77 0 22 23 210 V45 20 66 0.2 V46 67 8 0.2 E42 5 14 5 15 4 E43 12 2 16 2 4 .MODEL JC NJF IS=1E-18 .MODEL DVN D KF=7E-14 IS=1E-16 .MODEL DIN D .MODEL DD D .MODEL DE D IS=3E-17 .MODEL QPL PNP .MODEL QNL NPN .MODEL POUT PMOS KP=200U VTO=-0.7 .MODEL NOUT NMOS KP=200U VTO=0.7 .MODEL PIN PMOS KP=200U VTO=-0.7 .MODEL NIN NMOS KP=200U VTO=0.7 .MODEL PINT PMOS KP=200U VTO=-0.7 LAMBDA=0.01 .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * ------------------------------------------------------------------------ * | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; | * | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR | * | OMISSIONS. BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS | * | INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT | * | THE USER'S OWN RISK. NO PATENT RIGHTS OR LICENSES TO ANY OF THE | * | CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY. | * | BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR | * | USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS. | * ------------------------------------------------------------------------ * * INA122 macromodel * * Created 6 Sept 97 by V. Ivanov * REV. A 16 Sept 97 by V. Ivanov: revised syntax for backward compatibility. * * INA122 micromodel * * *connections | non-inverting input * | | inverting input * | | |reference * | | | | positive supply * | | | | | negative supply * | | | | | | gain resistor 1 * | | | | | | | gain resistor 2 * | | | | | | | | output .subckt INA122 inp inn ref vdd vee rg1 rg2 out * * c1o 11o 12o 4.3301E-12 c2o 6o 7o 15.000E-12 ceeo 10o 99o 15.000E-12 dco 5o 53o dx deo 54o 5o dx dlpo 90o 91o dx dlno 92o 90o dx dpo 4o 3o dx egndo 99o 0 poly(2) (3o,0) (4o,0) 0 .5 .5 fbo 7o 99o poly(5) vbo vco veo vlpo vlno 0 7.0736E9 -7E9 7E9 7E9 -7E9 gao 6o 0 11o 12o 28.274E-6 gcmo 0 6o 10o 99o 282.74E-12 ieeo 3o 10o dc 1.5100E-6 hlimo 90o 0 vlimo 1K q1o 11o 2o 13o qx1 q2o 12o 1o 14o qx2 r2o 6o 9o 100.00E3 rc1o 4o 11o 35.368E3 rc2o 4o 12o 35.368E3 re1o 13o 10o 876.34 re2o 14o 10o 876.34 reeo 10o 99o 132.45E6 ro1o 8o 5o 50 ro2o 7o 99o 25 rpo 3o 4o 512.86E3 vbo 9o 0 dc 0 vco 3o 53o dc .84884 veo 54o 4o dc .84884 vlimo 7o 8o dc 0 vlpo 91o 0 dc 3 vlno 0 92o dc 3 * * c1i 11i 12i 5.7735E-12 c2i 6i 7i 20.000E-12 ceei 10i 99i 20.000E-12 dci 5i 53i dx dei 54i 5i dx dlpi 90i 91i dx dlni 92i 90i dx dpi 4i 3i dx egndi 99i 0 poly(2) (3i,0) (4i,0) 0 .5 .5 fbi 7i 99i poly(5) vbi vci vei vlpi vlni 0 1.5915E9 -1E9 1E9 1E9 -1E9 gai 6i 0 11i 12i 25.133E-6 gcmi 0 6i 10i 99i 251.33E-12 ieei 3i 10i dc 2.0100E-6 hlimi 90i 0 vlimi 1K q1i 11i 2i 13i qx1 q2i 12i 1i 14i qx2 r2i 6i 9i 100.00E3 rc1i 4i 11i 39.789E3 rc2i 4i 12i 39.789E3 re1i 13i 10i 13.855E3 re2i 14i 10i 13.855E3 reei 10i 99i 99.502E6 ro1i 8i 5i 50 ro2i 7i 99i 25 rpi 3i 4i 517.29E3 vbi 9i 0 dc 0 vci 3i 53i dc .84884 vei 54i 4i dc .84884 vlimi 7i 8i dc 0 vlpi 91i 0 dc 3 vlni 0 92i dc 3 .model dx D(Is=800.00E-18) .model qx1 PNP(Is=800.00E-18 Bf=200) .model qx2 PNP(Is=800.0000E-18 Bf=200) r1 ref rg1 100k r2 rg1 1 25k r3 1 rg2 25k r4 rg2 out 100k q1 vee inn 2 qx i1 vdd 2 2u d11 inn vdd dx d12 vee inn dx q2 vee inp 3 qx i2 vdd 3 2u d21 inp vdd dx d22 vee inp dx .model qx PNP(Is=800.00E-18 Bf=200) rx1 1i 2 1e-3 rx2 2i rg1 1e-3 rx3 3i vdd 1e-3 rx4 4i vee 1e-3 rx5 5i 1 1e-3 rx6 1o 3 1e-3 rx7 2o rg2 1e-3 rx8 3o vdd 1e-3 rx9 4o vee 1e-3 rx10 5o out 1e-3 * .ends *------------------------------------------------------------------- *------------------------------------------------------------------- * INA118 = A1_118 + A2_118 + A3_118 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 05/20/94 AT 15:01 * REV.A * ------------------------------------------------------------------------ * | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; | * | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR | * | OMISSIONS. BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS | * | INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT | * | THE USER'S OWN RISK. NO PATENT RIGHTS OR LICENSES TO ANY OF THE | * | CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY. | * | BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR | * | USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS. | * ------------------------------------------------------------------------ * * ***** INA118 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT Ina118 1 2 3 4 5 8 9 10 * ***** A1_118 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 15 17 3 4 11 A1_118 * ***** A2_118 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 15 16 3 4 12 A2_118 * ***** A3_118 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_118 * R1 11 13 60.0000K R2 13 5 59.994K R3 12 14 60.0000K R4 14 8 60.0000K CIN 13 14 4.0000PF * R1FB 9 11 25.0000K CC1 17 11 13.0000PF R2FB 10 12 25.0000K CC2 16 12 13.0000PF CG1 9 0 10.0000PF CG2 10 0 9.0000PF * RCE 17 9 1.7G * I1 3 16 DC 15.00E-6 I2 3 17 DC 15.00E-6 IB1CAN 3 1 DC 29.00E-9 IB2CAN 3 2 DC 29.00E-9 Ibal 0 4 DC 31.30E-6 * D1 15 17 DX D2 15 16 DX * Q1 16 1 10 QX Q2 17 2 9 QX * V1 3 15 DC 1.100 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- * A1_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt A1_118 1 2 3 4 5 * c1 11 12 1.340E-12 c2 6 7 10.00E-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 0 127.3E6 -130E6 130E6 130E6 -130E6 ga 6 0 11 12 110.0E-6 gcm 0 6 10 99 11.00E-12 iss 3 10 dc 10.00E-6 hlim 90 0 vlim 1K j1 11 2 10 jx j2 12 1 10 jx r2 6 9 100.0E3 rd1 4 11 9.095E3 rd2 4 12 9.095E3 ro1 8 5 50 ro2 7 99 25 rp 3 4 900.0E12 rss 10 99 20.00E6 vb 9 0 dc 0 vc 3 53 dc .6 ve 54 4 dc .6 vlim 7 8 dc 0 vlp 91 0 dc 20 vln 0 92 dc 20 .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends *------------------------------------------------------------------- *------------------------------------------------------------------- * A2_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt A2_118 1 2 3 4 5 * c1 11 12 1.340E-12 c2 6 7 10.00E-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 0 127.3E6 -130E6 130E6 130E6 -130E6 ga 6 0 11 12 110.0E-6 gcm 0 6 10 99 11.00E-12 iss 3 10 dc 10.00E-6 hlim 90 0 vlim 1K j1 11 2 10 jx j2 12 1 10 jx r2 6 9 100.0E3 rd1 4 11 9.095E3 rd2 4 12 9.095E3 ro1 8 5 50 ro2 7 99 25 rp 3 4 900.0E12 rss 10 99 20.00E6 vb 9 0 dc 0 vc 3 53 dc .6 ve 54 4 dc .6 vlim 7 8 dc 0 vlp 91 0 dc 20 vln 0 92 dc 20 .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends *------------------------------------------------------------------- *------------------------------------------------------------------- * A3_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:22 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt A3_118 1 2 3 4 5 * c1 11 12 3.501E-12 c2 6 7 10.00E-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 0 212.2E6 -210E6 210E6 210E6 -210E6 ga 6 0 11 12 75.40E-6 gcm 0 6 10 99 754.0E-12 iee 10 4 dc 9.002E-6 hlim 90 0 vlim 1K q1 11 2 13 qx q2 12 1 14 qx r2 6 9 100.0E3 rc1 3 11 13.26E3 rc2 3 12 13.26E3 re1 13 10 7.514E3 re2 14 10 7.514E3 ree 10 99 22.22E6 ro1 8 5 75 ro2 7 99 75 rp 3 4 103.09E3 vb 9 0 dc 0 vc 3 53 dc 1.400 ve 54 4 dc .8 vlim 7 8 dc 0 vlp 91 0 dc 4.5 vln 0 92 dc 11.5 .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=4.500E3) .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 Apr 14, 98 * MODEL FORMAT: PSpice .MODEL Jmmbfj175lt1_Pjfet pjf +VTO=-4.25882 BETA=0.00388105 LAMBDA=0.00751457 RD=114.077 +RS=42.5978 IS=3.40344e-10 CGS=7.1608e-12 CGD=1.66048e-11 +PB=0.757866 FC=0.5 KF=1e-20 AF=0.2 ************************************** * 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 Mar 31, 98 * MODEL FORMAT: PSpice .MODEL Jmmbf4393lt1_Njfet njf +VTO=-1.36506 BETA=0.0190655 LAMBDA=0.0227922 RD=76.4299 +RS=38.7311 IS=1e-14 CGS=2.94972e-12 CGD=8.23801e-12 +PB=0.18649 FC=0.5 KF=1e-20 AF=0.2 .SUBCKT Si4559ey_Nchannel 4 1 2 ; fets are always in order d, g, s M1 3 1 2 2 NMOS W=733560u L=0.5u M2 2 1 2 4 PMOS W=733560u L=1.3u R1 4 3 RTEMP 37E-3 CGS 1 2 7E-10 DBD 2 4 DBD ************************************************************************** .MODEL NMOS NMOS (LEVEL = 3 TOX = 7E-8 + RS = 8.5E-3 RD = 0 NSUB = 1.06E17 + KP = 2.9E-5 UO = 650 + VMAX = 0 XJ = 0.5E-6 KAPPA = 8E-2 + ETA = 1E-4 TPG = 1 + IS = 0 LD = 0 + CGSO = 0 CGDO = 0 CGBO = 0 + NFS = 0.8E12 DELTA = 0.1) ************************************************************************* .MODEL PMOS PMOS (LEVEL = 3 TOX = 7E-8 +NSUB = 0.7E16 TPG = -1) ************************************************************************* .MODEL DBD D (CJO=5E-10 VJ=0.38 M=0.38 +RS= 0.1 FC=0.5 IS=1E-12 TT=10E-8 N=1 BV=61) ************************************************************************* .MODEL RTEMP RES (TC1=5.8E-3 TC2=6.5E-6) ************************************************************************* .ENDS *------------------------------------------------------------------- *------------------------------------------------------------------- .SUBCKT Si4559ey_Pchannel 4 1 2 M1 3 1 2 2 PMOS W=780920u L=0.50u M2 2 1 2 4 NMOS W=780920u L=0.78u R1 4 3 RTEMP 740E-4 CGS 1 2 750E-12 DBD 4 2 DBD ************************************************************************** .MODEL PMOS PMOS ( LEVEL = 3 TOX = 5E-8 + RS = 490E-4 RD = 0 NSUB = 7.96E16 + kp = 2.4E-5 UO = 400 + VMAX = 0 XJ = 0.5E-6 KAPPA = 3E-1 + ETA = 1E-4 TPG = -1 + IS = 0 LD = 0 + CGSO = 0 CGDO = 0 CGBO = 0 + NFS = 0.8E12 DELTA = 0.1) ************************************************************************* .MODEL NMOS NMOS ( LEVEL = 3 TOX = 5E-8 +NSUB = 1.E16 NFS = 10E11 TPG = -1) ************************************************************************* .MODEL DBD D (CJO=520E-12 VJ=0.38 M=0.36 +RS=0.1 FC=0.5 IS=1E-11 TT=6.9E-8 N=1 BV=65) ************************************************************************* .MODEL RTEMP RES (TC1=9.6E-3 TC2=8.5E-6) ************************************************************************* .ENDS *------------------------------------------------------------------- *-------------------------------------------------------------------