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* Library of Analog Devices, Inc. definitions * Copyright 1990 Analog Devices, Inc. * Neither this library nor any part may be copied without the express * written consent of Analog Devices, Inc. * $Revision: 1.1 $ * $Author: pwt $ * $Date: 04 Dec 1990 14:47:48 $ *----------------------------------------------------------------------------- * * This library of macromodels is being supplied to users as an aid to circuit * designs. While it reflects reasonably close similarity to the actual device * in terms of performance, it is not suggested as a replacement for * breadboarding. Simulation should be used as a forerunner or a supplement to * traditional lab testing. * * Users should very carefully note the following factors regarding these * models: * * Model performance in general will reflect typical baseline specs for a * given device, and certain aspects of performance may not be modeled * fully. * * While reasonable care has been taken in their preparation, we cannot * be responsible for correct application on any and all computer * systems. * * Model users are hereby notified that these models are supplied * "as is", with no direct or implied responsibility on the part of * Analog Devices/PMI for their operation within a customer circuit or * system. Further, Analog Devices, Inc. reserves the right to change * these models without prior notice. * * In all cases, the current data sheet information for a given real * device is your final design guideline, and is the only actual * performance guarantee. For further technical information, refer to * individual device data sheets. * * Your feedback and suggestions on these (and future) models will be * appreciated! * * Analog Devices, Inc. * Components Group Applications * 181 Ballardvale Street * Wilmington, Massachusettes 01887 * (508) 658-9400 * *** AND * * Precision Monolithics, Inc. (an Analog Devices, Inc. company) * 1500 Space Park Drive * Santa Clara, California 95052 * (408) 727-9222 *----------------------------------------------------------------------------- *model AD711/AD * rev. AD711/ADI/APPS/1.0 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | * | | | | | .subckt AD711/AD 13 15 12 16 14 * vos 15 8 dc 0 ec 9 0 (14,0) 1 c1 6 7 1.25p rp 16 12 12K gb 11 0 (3,0) 1.67K rd1 6 16 16K rd2 7 16 16K iss 12 1 dc 100u cci 3 11 14p gcm 0 3 (0,1) 1.76n ga 3 0 (7,6) 176u re 1 0 2.5Meg rgm 3 0 2.84K vc 12 2 dc 2.8 ve 10 16 dc 2.8 ro1 11 14 25 ce 1 0 2p ro2 0 11 30 rs1 1 4 5.77K rs2 1 5 5.77K j1 6 13 4 fet j2 7 8 5 fet dc 14 2 diode de 10 14 diode dp 16 12 diode d1 9 11 diode d2 11 9 diode .model diode d() .model fet pjf(vto=-1 beta=1m) .ends *----------------------------------------------------------------------------- *model AD712/AD * rev. dual AD711 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt AD712/AD 1 2 3 4 5 * x_ad712 1 2 3 4 5 ad711/ad .ends *----------------------------------------------------------------------------- *model AD713/AD * rev. quad AD711 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt AD713/AD 1 2 3 4 5 * x_ad713 1 2 3 4 5 ad711/ad .ends *----------------------------------------------------------------------------- *model AD744/AD * rev. AD744/ADI/APPS/1.0 * * An external compensation capacitor, connected between last terminals in the * main circuit, is required at low gains. A nominal 0.001pF capacitor is * supplied in this subcircuit. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | compensation * | | | | | / \ .subckt AD744/AD 11 14 10 16 13 12 15 * vos 14 7 dc 0 ec 8 0 (13,0) 1 c1 5 6 1.25p gb 12 0 (15,0) 1.67K rd1 5 16 16K rd2 6 16 16K iss 10 1 dc 100u gcm 0 15 (0,1) 1.76n ga 15 0 (6,5) 176u cce 12 15 0.001p re 1 0 2.5Meg rgm 15 0 2.84K vc 10 2 dc 2.8 ve 9 16 dc 2.8 ro1 12 13 25 ce 1 0 2p ro2 0 12 30 rs1 1 3 5.77K rs2 1 4 5.77K cci 15 12 5p rp 16 10 8.5K j1 5 11 3 fet j2 6 7 4 fet dc 13 2 diode de 9 13 diode dp 16 10 diode d1 8 12 diode d2 12 8 diode .model diode d() .model fet pjf(vto=-1 beta=1m) .ends *----------------------------------------------------------------------------- *model AD746/AD * rev. dual AD744 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | * | | | | | compensation * | | | | | / \ .subckt AD746/AD 1 2 3 4 5 6 7 * x_ad746 1 2 3 4 5 6 7 ad744/ad .ends *----------------------------------------------------------------------------- *model AD9617/AD * rev. Analog Dialog 24-1 1990 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | * | | | | | .subckt AD9617/AD 1 2 90 91 15 * c1 13 5 1.15p c2 17 6 1.15p c3 12 2 .5p c4 5 6 3.5p c5 5 0 1p c6 6 0 1p c7 12 0 1.5p cinn 1 0 1.5p cini 2 0 1.5p f1 90 13 vm1 1.5 f2 17 91 vm2 1.5 gm1 12 9 poly(2) (0,5) (0,6) 2.5m -2m -2m gm2 10 12 poly(2) (0,6) (0,5) 2.5m 2m 2m i1 90 3 dc 1.98m i2 90 5 dc 3.93m i3 4 91 dc 2m i4 6 91 dc 4m i5 90 12 dc 5m i6 12 91 dc 5m q1 3 3 1 91 qna 1.05 q2 5 3 2 91 qna 1.05 q3 4 4 1 90 qpa 1.05 q4 6 4 2 90 qpa 1.05 q5 91 12 13 90 qpa 1.25 q6a 90 13 14 91 qnb 1.05 q6b 90 13 14 91 qnb 1.05 q7 90 12 17 91 qna 1.11 q8a 91 17 16 90 qpb q8b 91 17 16 90 qpb r1 12 15 500 r2 14 15 5 r3 15 16 5 r4 90 5 190K r5 5 0 25K r6 6 91 395K r7 6 0 12K r8 7 20 350 vb1 5 7 dc 1.6 vb2 20 6 dc 1.6 vm1 90 10 dc 0 vm2 9 91 dc 0 .model qna npn(rb=75 irb=0 rbm=7 rc=20 re=.7 is=540e-18 xtb=2.4 bf=380 ikf=15m + vaf=30 ise=22e-16 isc=35e-21 tf=25p cje=.16p vje=1 cjc=.22p + xcjc=.2 cjs=.4p mjs=.3) .model qnb npn(rb=24 irb=0 rbm=2 rc=6 re=.5 is=18e-16 xtb=2 bf=380 ikf=49m + vaf=30 ise=72e-16 isc=115e-21 tf=25p cje=.54p vje=1 cjc=.6p + xcjc=.2 cjs=.7p mjs=.3) .model qpa pnp(rb=83 irb=0 rbm=14 rc=18 re=.5 is=26e-17 xtb=2 bf=190 ikf=24m + vaf=15 ise=7e-15 isc=30e-19 tf=35p cje=.11p vje=1 cjc=.31p + xcjc=.2 cjs=.9p mjs=.35) .model qpb pnp(rb=25 irb=0 rbm=4 rc=5 re=.2 is=88e-17 xtb=2 bf=190 ikf=84m + vaf=15 ise=22.3e-15 isc=100e-19 tf=35p cje=.36p vje=1 cjc=.85p + xcjc=.2 cjs=1.4p mjs=.35) .ends *----------------------------------------------------------------------------- *model AD9618/AD * rev. similar to AD9617 * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt AD9618/AD 1 2 3 4 5 * x_ad9618 1 2 3 4 5 ad9617/ad .ends *------------------------------------------------------------------------------ * AMP-01 SPICE Macro-model 2/90, Rev. A * Created by D. F. Bowers .SUBCKT AMP-01/AD + 207 ; rg(pin1) + 206 ; rg(pin2) + 2 ; inverting input + 210 ; sense + 209 ; reference + 32 ; output + 211 ; output stage negative supply + 50 ; device negative supply + 99 ; device positive supply + 212 ; output stage positive supply + 214 ; rs + 216 ; rs + 3 ; non-inverting input *input protection network R201 3 204 250 R202 2 205 250 D202 206 204 DX D203 207 205 DX *input stage and resistive load Q201 6 204 206 NX Q202 5 205 207 NX R3 99 6 30K R4 99 5 30K *common mode rejection term R207 99 207 8G R208 50 207 8G *input offset current and input offset voltage I202 99 204 150N I203 3 50 149.5N *output offset voltage I201 99 201 40N *feedback V-I converter C2 201 202 120P *c2 provides the second pole before the *input stage to prevent spurious slew limiting R203 209 201 47.5K R204 201 203 2.5K R205 202 203 2.5K R206 210 202 47.5K V203 203 50 0.57 E201 213 50 201 214 100K Q203 206 213 214 NX I204 214 50 100U E202 215 50 202 216 100K Q204 207 215 216 NX I205 216 50 100U D204 208 207 DX D205 208 206 DX V201 208 50 4 * output amplifier R5 9 99 400MEG R6 9 50 400MEG C3 9 99 55P C4 9 50 55P G1 99 9 POLY(1) 5 6 1.7M 100u G2 9 50 POLY(1) 6 5 1.7M 100u V2 99 8 2.5 V3 10 50 2.5 D1 9 8 DX D2 10 9 DX D5 9 28 DX D6 29 9 DX R26 26 212 111E3 R27 26 211 111E3 R28 32 212 90 R29 32 211 90 G17 30 211 9 32 11.111E-3 G18 31 211 32 9 11.111E-3 G19 32 212 212 9 11.111E-3 G20 211 32 9 211 11.111E-3 V6 28 32 3 V7 32 29 3 D7 212 30 DX D8 212 31 DX D9 211 30 DY D10 211 31 DY I1 212 211 600U * non-linear models .MODEL DX D (IS=1E-15) .MODEL DY D (IS=1E-15 BV=50) .MODEL NX NPN (IS=1E-14 BF=1E5 RE=50) .ENDS *------------------------------------------------------------------------------ * AMP-02 SPICE Macro-model 2/90, Rev. A * Created by D. F. Bowers .SUBCKT AMP-02/AD + 207 ; rg1 + 202 ; inverting input + 203 ; non-inverting input + 50 ; negative supply + 205 ; reference (ground usually) + 32 ; output + 99 ; positive supply + 208 ; rg2 *input protection network J201 215 217 202 JX 40 J202 217 217 215 JX 40 J203 218 218 216 JX 40 J204 216 218 203 JX 40 D201 215 220 DX D202 219 215 DX D203 219 216 DX D204 216 220 DX V202 219 50 3.6 V203 99 220 3.6 *input offset voltage IVOS 215 50 100N *(this saves a node by using the protection FET's *as offset voltage generators) *input currents IB1 99 202 97N *(the latter term is mostly compensation for IVOS) IB2 203 50 1.8N *input stage Q201 210 213 207 50 NX Q202 211 214 208 50 NX E203 213 0 215 207 10K E204 214 0 216 208 10K I201 207 50 50U I202 208 50 50.04U *(the 0.04U models the output offset voltage *and saves yet another node) *differential gain stage and pole R201 251 207 25K R202 250 208 25K R203 99 210 20K R204 99 211 20K V201 99 212 1 RV201 99 212 1MEG E201 251 32 212 210 1MEG E202 250 32 212 211 1MEG C210 251 210 8P C211 250 211 8P *output resistor network R208 32 2 25.002K *(R208 is imbalanced to model CMRR) R207 2 221 24K R210 251 221 1K R205 222 3 24K R211 250 222 1K R206 3 205 25K V204 99 223 3 V205 224 50 3 D205 221 223 DX D206 222 223 DX D207 224 221 DX D208 224 222 DX * output amplifier R3 5 50 1K R4 6 50 1K I1 99 4 200u J1 5 2 4 JX J2 6 3 4 JX C2 5 6 30P R5 9 99 180MEG R6 9 50 180MEG C3 9 99 40P C4 9 50 40P G1 99 9 POLY(1) 5 6 4.5M 1.4M G2 9 50 POLY(1) 6 5 4.5M 1.4M V2 99 8 2.5 V3 10 50 2.5 D1 9 8 DX D2 10 9 DX D5 9 28 DX D6 29 9 DX R26 26 99 111E3 R27 26 50 111E3 R28 27 99 300 R29 27 50 300 L3 27 32 1.1U G17 30 50 9 27 3.333E-3 G18 31 50 27 9 3.333E-3 G19 27 99 99 9 3.333E-3 G20 50 27 9 50 3.333E-3 V6 28 27 2.6 V7 27 29 2.6 D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * non-linear models .MODEL JX PJF (BETA=20E-6 VTO=-2.0 IS=1E-16) .MODEL DX D (IS=1E-15) .MODEL DY D (IS=1E-15 BV=50) .MODEL NX NPN (IS=1E-16 BF=10000 RE=50) .ENDS *------------------------------------------------------------------------------ * MAT-02 SPICE Macro-model 4/90, Rev. A .SUBCKT MAT-02/AD + 1 ; C1 + 2 ; B1 + 3 ; E1 + 5 ; E2 + 6 ; B2 + 7 ; C2 Q1 1 2 3 NMAT Q2 7 6 5 NMAT D1 3 2 DMAT1 D2 5 6 DMAT1 D3 4 3 DMAT1 D4 4 5 DMAT1 D5 4 1 DMAT2 D6 4 7 DMAT2 .MODEL DMAT1 D(IS=2E-16 RS=20) .MODEL DMAT2 D(IS=1E-14 VJ=0.6 CJO=40P) .MODEL NMAT NPN(BF=500 IS=6E-13 VAF=150 BR=0.5 VAR=7 + RB=13 RC=10 RE=0.3 CJE=82P VJE=0.7 MJE=0.4 TF=0.3E-9 + TR=5E-9 CJC=33P VJC=0.55 MJC=0.5 CJS=0 IKF=0.300 PTF=25) .ENDS *------------------------------------------------------------------------------ * MAT-03 SPICE Macro-model 10/88, Rev. B .SUBCKT MAT-03/AD + 1 ; C1 + 2 ; B1 + 3 ; E1 + 5 ; E2 + 6 ; B2 + 7 ; C2 Q1 1 2 3 PMAT Q2 7 6 5 PMAT D1 2 3 DMAT1 D2 6 5 DMAT1 D3 3 4 DMAT1 D4 5 4 DMAT1 D5 1 4 DMAT2 D6 7 4 DMAT2 .MODEL DMAT1 D(IS=7.2E-16 RS=20) .MODEL DMAT2 D(IS=1E-14 VJ=0.6 CJO=68P) .MODEL PMAT PNP(BF=160 IS=1.4E-13 VAF=60 BR=5 VAR=7 RB=16 + RC=12 RE=0.35 CJE=57P VJE=0.7 MJE=0.4 TF=1.08E-9 + TR=3E-8 CJC=40P VJC=0.55 MJC=0.5 CJS=0 IKF=160M) .ENDS *------------------------------------------------------------------------------ * MAT-04 SPICE Macro-model 4/90, Rev. A .SUBCKT MAT-04/AD + 1 ; C1 + 2 ; B1 + 3 ; E1 + 4 ; SUBSTRATE (MAY BE FLOATED, OR PREFERABLY, CONNECTED TO V-) + 5 ; E2 + 6 ; B2 + 7 ; C2 + 8 ; C3 + 9 ; B3 + 10 ; E3 + 12 ; E4 + 13 ; B4 + 14 ; C4 Q1 1 2 3 NMAT Q2 7 6 5 NMAT Q3 8 9 10 NMAT Q4 14 13 12 NMAT D1 3 2 DMAT1 D2 5 6 DMAT1 D3 10 9 DMAT1 D4 12 13 DMAT1 D5 4 3 DMAT1 D6 4 5 DMAT1 D7 4 10 DMAT1 D8 4 12 DMAT1 D9 4 1 DMAT2 D10 4 7 DMAT2 D11 4 8 DMAT2 D12 4 14 DMAT2 .MODEL DMAT1 D(IS=2E-16 RS=20) .MODEL DMAT2 D(IS=5E-15 VJ=0.6 CJO=25P) .MODEL NMAT NPN(BF=500 IS=3E-13 VAF=150 BR=0.5 VAR=7 + RB=26 RC=16 RE=0.4 CJE=41P VJE=0.7 MJE=0.4 TF=0.3E-9 + TR=5E-9 CJC=17P VJC=0.55 MJC=0.5 CJS=0 IKF=0.150 PTF=25) .ENDS *------------------------------------------------------------------------------ * OP-42 SPICE Macro-model 4/90, Rev. C .SUBCKT OP-42/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 707.36 R4 6 50 707.36 CIN 1 2 5E-12 C2 5 6 7.08E-12 I1 99 4 1E-3 IOS 1 2 4E-12 EOS 7 1 POLY(1) 20 26 0.3E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 176.84E6 R6 9 50 176.84E6 C3 9 99 20E-12 C4 9 50 20E-12 G1 99 9 POLY(1) 5 6 3.96E-3 1.4137E-3 G2 9 50 POLY(1) 6 5 3.96E-3 1.4137E-3 V2 99 8 2.5 V3 10 50 3.1 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 1.58E-11 G14 20 50 26 3 1.58E-11 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.7 V7 27 29 0.7 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=999.3E-6 VTO=-2.000 IS=8E-11) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-42A SPICE Macro-model 4/90, Rev. A * This version of the OP-42 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-42A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 636.63 R4 6 50 636.63 CIN 1 2 5E-12 C2 5 6 7.9E-12 I1 99 4 1E-3 IOS 1 2 4E-11 EOS 7 1 POLY(1) 20 26 1E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 63.663E6 R6 9 50 63.663E6 C3 9 99 22.222E-12 C4 9 50 22.222E-12 G1 99 9 POLY(1) 5 6 4.76E-3 1.571E-3 G2 9 50 POLY(1) 6 5 4.76E-3 1.571E-3 V2 99 8 3.582 V3 10 50 3.582 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 5.012E-11 G14 20 50 26 3 5.012E-11 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.2 V7 27 29 0.2 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=1.245E-3 VTO=-2.000 IS=2E-10) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-42E SPICE Macro-model 4/90, Rev. A * This version of the OP-42 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-42E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 707.21 R4 6 50 707.21 CIN 1 2 5E-12 C2 5 6 7.077E-12 I1 99 4 1E-3 IOS 1 2 4E-11 EOS 7 1 POLY(1) 20 26 750E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 70.736E6 R6 9 50 70.736E6 C3 9 99 20E-12 C4 9 50 20E-12 G1 99 9 POLY(1) 5 6 4.76E-3 1.414E-3 G2 9 50 POLY(1) 6 5 4.76E-3 1.414E-3 V2 99 8 3.582 V3 10 50 3.582 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 3.981E-11 G14 20 50 26 3 3.981E-11 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.2 V7 27 29 0.2 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=999.7E-6 VTO=-2.000 IS=2E-10) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-42F SPICE Macro-model 4/90, Rev. A * This version of the OP-42 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-42F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 565.93 R4 6 50 565.93 CIN 1 2 5E-12 C2 5 6 8.444E-12 I1 99 4 1E-3 IOS 1 2 5E-11 EOS 7 1 POLY(1) 20 26 1.5E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 56.588E6 R6 9 50 56.588E6 C3 9 99 25E-12 C4 9 50 25E-12 G1 99 9 POLY(1) 5 6 5.26E-3 1.767E-3 G2 9 50 POLY(1) 6 5 5.26E-3 1.767E-3 V2 99 8 3.582 V3 10 50 3.582 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 1.000E-10 G14 20 50 26 3 1.000E-10 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.2 V7 27 29 0.2 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=1.561E-3 VTO=-2.000 IS=2.5E-10) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-42G SPICE Macro-model 4/90, Rev. A * This version of the OP-42 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-42G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 565.93 R4 6 50 565.93 CIN 1 2 5E-12 C2 5 6 8.444E-12 I1 99 4 1E-3 IOS 1 2 5E-11 EOS 7 1 POLY(1) 20 26 5E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 56.588E6 R6 9 50 56.588E6 C3 9 99 25E-12 C4 9 50 25E-12 G1 99 9 POLY(1) 5 6 5.26E-3 1.767E-3 G2 9 50 POLY(1) 6 5 5.26E-3 1.767E-3 V2 99 8 3.582 V3 10 50 3.582 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 1.000E-10 G14 20 50 26 3 1.000E-10 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.2 V7 27 29 0.2 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=1.561E-3 VTO=-2.000 IS=2.5E-10) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-44 SPICE Macro-model 11/89, Rev. A .SUBCKT OP-44/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 60 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 541 R4 6 50 541 CIN 1 2 5E-12 C2 5 6 2.452E-12 I1 99 4 1.5E-3 IOS 1 2 4E-12 EOS 7 1 POLY(1) 22 26 0E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 79 HZ R7 9 99 241.8E6 R8 9 50 241.8E6 C3 9 99 8.333E-12 C4 9 50 8.333E-12 G1 99 9 POLY(1) 5 6 4.825E-3 1.848E-3 G2 9 50 POLY(1) 6 5 4.825E-3 1.848E-3 V1 99 8 -10 V2 10 50 -10 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.3 MHZ / 3.25 MHZ R9 11 99 1E6 R10 11 50 1E6 R11 12 99 667E3 R12 13 50 667E3 C5 11 12 73.46E-15 C6 11 13 73.46E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 V3 99 14 2.5 V4 15 50 3.1 D3 11 14 DX D4 15 11 DX * POLE AT 100 MHZ R13 16 99 1E6 R14 16 50 1E6 C7 16 99 1.592E-15 C8 16 50 1.592E-15 G5 99 16 11 26 1E-6 G6 16 50 26 11 1E-6 * POLE AT 100 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 1.592E-15 C10 17 50 1.592E-15 G7 99 17 16 26 1E-6 G8 17 50 26 16 1E-6 * POLE AT 100 MHZ R17 18 99 1E6 R18 18 50 1E6 C13 18 99 1.592E-15 C14 18 50 1.592E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 100 MHZ R19 19 99 1E6 R20 19 50 1E6 C15 19 99 1.592E-15 C16 19 50 1.592E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * POLE AT 200 MHZ R21 20 99 1E6 R22 20 50 1E6 C17 20 99 .796E-15 C18 20 50 .796E-15 G13 99 20 19 26 1E-6 G14 20 50 26 19 1E-6 * POLE AT 200 MHZ R23 21 99 1E6 R24 21 50 1E6 C19 21 99 .796E-15 C20 21 50 .796E-15 G15 99 21 20 26 1E-6 G16 21 50 26 20 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R25 22 23 1E6 R26 22 24 1E6 L1 23 99 1.5915 L2 24 50 1.5915 D5 22 99 DX D6 50 22 DX G17 99 22 3 26 1.58E-11 G18 22 50 26 3 1.58E-11 * POLE AT 200 MHZ R27 25 99 1E6 R28 25 50 1E6 C21 25 99 .796E-15 C22 25 50 .796E-15 G19 99 25 21 26 1E-6 G20 25 50 26 21 1E-6 * OUTPUT STAGE R30 26 99 375.3E3 R31 26 50 375.3E3 R32 27 99 80 R33 27 50 80 L3 27 32 2.5E-7 G21 30 50 25 27 12.5E-3 G22 31 50 27 25 12.5E-3 G23 27 99 99 25 12.5E-3 G24 50 27 25 50 12.5E-3 V6 28 27 0.5 V7 27 29 0.3 D7 25 28 DX D8 29 25 DX D9 99 30 DX D10 99 31 DX D11 50 30 DY D12 50 31 DY * MODELS USED .MODEL JX PJF(BETA=1.139E-3 VTO=-1.5 IS=8E-11) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-61 SPICE Macro-model 6/89, Rev. A .SUBCKT OP-61/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 38 ; output * INPUT STAGE & POLE AT 300 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 99 51.6 R4 6 99 51.6 CIN 1 2 5E-12 C2 5 6 5.141E-12 I1 4 50 1E-3 IOS 1 2 2E-7 EOS 9 1 POLY(1) 26 32 400E-6 1 Q1 5 2 4 QX Q2 6 9 4 QX * FIRST GAIN STAGE R7 11 99 1E6 R8 11 50 1E6 D11 11 10 DX D12 12 11 DX G1 99 11 5 6 2E-4 G2 11 50 6 5 2E-4 E1 99 10 POLY(1) 99 32 -4.4 1 E2 12 50 POLY(1) 32 50 -4.4 1 * SECOND GAIN STAGE & POLE AT 2.5 KHZ R9 13 99 5.1598E6 R10 13 50 5.1598E6 C3 13 99 12.338E-12 C4 13 50 12.338E-12 G3 99 13 POLY(1) 11 32 4.24E-3 9.69E-5 G4 13 50 POLY(1) 32 11 4.24E-3 9.69E-5 V2 99 14 2.3 V3 15 50 2.3 D1 13 14 DX D2 15 13 DX * POLE-ZERO PAIR AT 4 MHZ / 8 MHZ R11 16 99 1E6 R12 16 50 1E6 R13 16 17 1E6 R14 16 18 1E6 C5 17 99 19.89E-15 C6 18 50 19.89E-15 G5 99 16 13 32 1E-6 G6 16 50 32 13 1E-6 * ZERO-POLE PAIR AT 85 MHZ / 300 MHZ R17 19 20 1E6 R18 19 21 1E6 R19 20 99 2.529E6 R20 21 50 2.529E6 L3 20 99 1.342E-3 L4 21 50 1.342E-3 G7 99 19 16 32 1E-6 G8 19 50 32 16 1E-6 * POLE AT 40 MHZ R21 22 99 1E6 R22 22 50 1E6 C7 22 99 3.979E-15 C8 22 50 3.979E-15 G9 99 22 19 32 1E-6 G10 22 50 32 19 1E-6 * POLE AT 200 MHZ R23 23 99 1E6 R24 23 50 1E6 C9 23 99 .796E-15 C10 23 50 .796E-15 G11 99 23 22 32 1E-6 G12 23 50 32 22 1E-6 * POLE AT 200 MHZ R25 24 99 1E6 R26 24 50 1E6 C11 24 99 .796E-15 C12 24 50 .796E-15 G13 99 24 23 32 1E-6 G14 24 50 32 23 1E-6 * POLE AT 200 MHZ R27 25 99 1E6 R28 25 50 1E6 C13 25 99 .796E-15 C14 25 50 .796E-15 G15 99 25 24 32 1E-6 G16 25 99 32 24 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 40 KHZ R29 26 27 1E6 R30 26 28 1E6 L5 27 99 3.979 L6 28 50 3.979 G17 99 26 3 32 1E-11 G18 26 50 32 3 1E-11 * POLE AT 300 MHZ R32 31 99 1E6 R33 31 50 1E6 C15 31 99 .531E-15 C16 31 50 .531E-15 G19 99 31 25 32 1E-6 G20 31 50 32 25 1E-6 * OUTPUT STAGE R34 32 99 20.0E3 R35 32 50 20.0E3 R36 33 99 30 R37 33 50 30 L7 33 38 1.65E-7 G21 36 50 31 33 33.3333333E-3 G22 37 50 33 31 33.3333333E-3 G23 33 99 99 31 33.3333333E-3 G24 50 33 31 50 33.3333333E-3 V6 34 33 .2 V7 33 35 .2 D5 31 34 DX D6 35 31 DX D7 99 36 DX D8 99 37 DX D9 50 36 DY D10 50 37 DY * MODELS USED .MODEL QX NPN(BF=1250) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-64 SPICE Macro-model 3/89, Rev. B .SUBCKT OP-64/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 38 ; output * INPUT STAGE & POLE AT 39.8 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 99 474.86 R4 6 99 474.86 R5 4 7 423.26 R6 4 8 423.26 CIN 1 2 1E-15 C2 5 6 4.2106E-12 I1 4 50 1E-3 IOS 1 2 1E-7 EOS 9 1 POLY(1) 26 32 4E-4 1 Q1 5 2 7 QX Q2 6 9 8 QX * SECOND STAGE & POLE AT 3.8 KHZ R7 11 99 7.1229E6 R8 11 50 7.1229E6 C3 11 99 5.88E-12 C4 11 50 5.88E-12 G1 99 11 POLY(1) 5 6 4.31E-3 2.1059E-3 G2 11 50 POLY(1) 6 5 4.31E-3 2.1059E-3 V2 99 10 2.25 V3 12 50 2.25 D1 11 10 DX D2 12 11 DX * POLE AT 39.8 MHZ R9 13 99 1E6 R10 13 50 1E6 C5 13 99 4E-15 C6 13 50 4E-15 G3 99 13 11 32 1E-6 G4 13 50 32 11 1E-6 * ZERO-POLE PAIR AT 26.5 MHZ / 159 MHZ R13 16 17 1E6 R14 16 18 1E6 R15 17 99 5E6 R16 18 50 5E6 L1 17 99 5.005E-3 L2 18 50 5.005E-3 G5 99 16 13 32 1E-6 G6 16 50 32 13 1E-6 * ZERO-POLE PAIR AT 31.8 MHZ / 39.8 MHZ R17 19 20 1E6 R18 19 21 1E6 R19 20 99 2.5157E5 R20 21 50 2.5157E5 L3 20 99 1.006E-3 L4 21 50 1.006E-3 G7 99 19 16 32 1E-6 G8 19 50 32 16 1E-6 * POLE AT 100 MHZ R21 22 99 1E6 R22 22 50 1E6 C7 22 99 1.59E-15 C8 22 50 1.59E-15 G9 99 22 19 32 1E-6 G10 22 50 32 19 1E-6 * POLE AT 159 MHZ R23 23 99 1E6 R24 23 50 1E6 C9 23 99 1E-15 C10 23 50 1E-15 G11 99 23 22 32 1E-6 G12 23 50 32 22 1E-6 * POLE AT 159 MHZ R25 24 99 1E6 R26 24 50 1E6 C11 24 99 1E-15 C12 24 50 1E-15 G13 99 24 23 32 1E-6 G14 24 50 32 23 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 KHZ R29 26 27 1E6 R30 26 28 1E6 L5 27 99 7.9575 L6 28 50 7.9575 G17 99 26 3 32 1E-11 G18 26 50 32 3 1E-11 * POLE AT 159 MHZ R32 31 99 1E6 R33 31 50 1E6 C15 31 99 1E-15 C16 31 50 1E-15 G19 99 31 24 32 1E-6 G20 31 50 32 24 1E-6 * OUTPUT STAGE R34 32 99 20.0E3 R35 32 50 20.0E3 R36 33 99 60 R37 33 50 60 L7 33 38 2.9E-7 G21 36 50 31 33 16.6666667E-3 G22 37 50 33 31 16.6666667E-3 G23 33 99 99 31 16.6666667E-3 G24 50 33 31 50 16.6666667E-3 V6 34 33 1.7 V7 33 35 1.7 D5 31 34 DX D6 35 31 DX D7 99 36 DX D8 99 37 DX D9 50 36 DY D10 50 37 DY * MODELS USED .MODEL QX NPN(BF=5000) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-77 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-77/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 0.3E-9 EOS 9 10 POLY(1) 30 33 10E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 59.91 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.053 HZ R8 23 98 6.01E9 C3 23 98 500E-12 G2 98 23 20 33 33.3E-6 V1 97 24 1.3 V2 25 51 1.3 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.0E-7 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.325E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=417E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=12.08K, KF=1E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=1.55E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-77A SPICE Macro-model 4/90, Rev. A * This version of the OP-77 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-77A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.5E-9 EOS 9 10 POLY(1) 30 33 25E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.0E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=250E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-77B SPICE Macro-model 4/90, Rev. A * This version of the OP-77 model simulates the worst case * parameters of the 'B' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-77B/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 2.8E-9 EOS 9 10 POLY(1) 30 33 60E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.318 HZ R8 23 98 501.3E6 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.6E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=178.6E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-77E SPICE Macro-model 4/90, Rev. A * This version of the OP-77 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-77E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.5E-9 EOS 9 10 POLY(1) 30 33 25E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.0E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=250E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-77F SPICE Macro-model 4/90, Rev. A * This version of the OP-77 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-77F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 2.8E-9 EOS 9 10 POLY(1) 30 33 60E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.318 HZ R8 23 98 501.3E6 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.6E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=178.6E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-77G SPICE Macro-model 4/90, Rev. A * This version of the OP-77 model simulates the worst case * parameters of the 'G' grades. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-77G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 2.8E-9 EOS 9 10 POLY(1) 30 33 100E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.318 HZ R8 23 98 501.3E6 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.6E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=178.6E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-90 SPICE Macro-model 3/90, Rev. A .SUBCKT OP-90/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1UA IOS 1 2 0.4E-9 EOS 9 1 POLY(1) 23 27 50E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 42.23E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.035 HZ R8 13 98 54.57E9 C3 13 98 83.333E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.9 V2 15 51 -2.9 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.16E-13 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 8.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=125) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-90A SPICE Macro-model 4/90, Rev. A * This version of the OP-90 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-90A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 150E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.6 V2 15 51 -2.6 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 8.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-90E SPICE Macro-model 4/90, Rev. A * This version of the OP-90 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-90E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 150E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.6 V2 15 51 -2.6 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 8.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-90F SPICE Macro-model 4/90, Rev. A * This version of the OP-90 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-90F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 250E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.6 V2 15 51 -2.6 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 8.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=25) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-90G SPICE Macro-model 4/90, Rev. A * This version of the OP-90 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-90G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 450E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.6 V2 15 51 -2.6 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 8.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=20) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-97 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-97/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 38 ; output * INPUT STAGE & POLE AT 15 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 99 612 R4 6 99 612 CIN 1 2 4E-12 C2 5 6 8.67E-12 I1 4 50 0.1E-3 IOS 1 2 30E-12 EOS 9 1 POLY(1) 26 32 10E-6 1 Q1 5 2 10 QX Q2 6 9 11 QX R5 10 4 96 R6 11 4 96 D12 2 9 DX D13 9 2 DX * GAIN STAGE & DOMINANT POLE AT 0.26 HZ R9 13 99 1.22E9 R10 13 50 1.22E9 C3 13 99 500E-12 C4 13 50 500E-12 G3 99 13 5 6 1.634E-3 G4 13 50 6 5 1.634E-3 V2 99 14 1.3 V3 15 50 1.3 D1 13 14 DX D2 15 13 DX GS 99 50 POLY(1) 99 50 0.28E-3 -3.7E-6 * ZERO-POLE PAIR AT 150 KHZ / 285 KHZ R17 19 20 1E6 R18 19 21 1E6 R19 20 99 0.9E6 R20 21 50 0.9E6 L3 20 99 0.503 L4 21 50 0.503 G7 99 19 13 32 1E-6 G8 19 50 32 13 1E-6 * POLE AT 4.8 MHZ R21 22 99 1E6 R22 22 50 1E6 C7 22 99 33.2E-15 C8 22 50 33.2E-15 G9 99 22 19 32 1E-6 G10 22 50 32 19 1E-6 * POLE AT 8 MHZ R23 23 99 1E6 R24 23 50 1E6 C9 23 99 19.9E-15 C10 23 50 19.9E-15 G11 99 23 22 32 1E-6 G12 23 50 32 22 1E-6 * POLE AT 10 MHZ R25 24 99 1E6 R26 24 50 1E6 C11 24 99 15.9E-15 C12 24 50 15.9E-15 G13 99 24 23 32 1E-6 G14 24 50 32 23 1E-6 * POLE AT 15 MHZ R27 25 99 1E6 R28 25 50 1E6 C13 25 99 10.6E-15 C14 25 50 10.6E-15 G15 99 25 24 32 1E-6 G16 25 99 32 24 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 50 KHZ R29 26 27 1E6 R30 26 28 1E6 L5 27 99 3.183E3 L6 28 50 3.183E3 RS1 27 99 16E9 RS2 28 50 16E9 G17 99 26 3 32 2.51E-13 G18 26 50 32 3 2.51E-13 D3 26 99 DX D4 50 26 DX * POLE AT 12 MHZ R32 31 99 1E6 R33 31 50 1E6 C15 31 99 13.2E-15 C16 31 50 13.2E-15 G19 99 31 25 32 1E-6 G20 31 50 32 25 1E-6 * OUTPUT STAGE R34 32 99 1E6 R35 32 50 1E6 R36 33 99 600 R37 33 50 600 L7 33 38 2.65E-7 G21 36 50 31 33 1.6667E-3 G22 37 50 33 31 1.6667E-3 G23 33 99 99 31 1.6667E-3 G24 50 33 31 50 1.6667E-3 V6 34 33 3.6 V7 33 35 3.0 D5 31 34 DX D6 35 31 DX D7 99 36 DX D8 99 37 DX D9 50 36 DY D10 50 37 DY * MODELS USED .MODEL QX NPN(BF=1.67E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-177 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-177/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 0.3E-9 EOS 9 10 POLY(1) 30 33 4E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 59.91 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.053 HZ R8 23 98 6.01E9 C3 23 98 500E-12 G2 98 23 20 33 33.3E-6 V1 97 24 1.3 V2 25 51 1.3 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.0E-7 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.325E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=500E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=12.08K, KF=1E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=1.55E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-177A SPICE Macro-model 4/90, Rev. A * This version of the OP-177 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-177A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.0E-9 EOS 9 10 POLY(1) 30 33 10E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 0.316E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=333.3E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-177B SPICE Macro-model 4/90, Rev. A * This version of the OP-177 model simulates the worst case * parameters of the 'B' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-177B/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.5E-9 EOS 9 10 POLY(1) 30 33 25E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 0.316E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=250E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-177E SPICE Macro-model 4/90, Rev. A * This version of the OP-177 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-177E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.0E-9 EOS 9 10 POLY(1) 30 33 10E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 0.316E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=333.3E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-177F SPICE Macro-model 4/90, Rev. A * This version of the OP-177 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-177F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 1.5E-9 EOS 9 10 POLY(1) 30 33 25E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.8 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.127 HZ R8 23 98 1.253E9 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 0.316E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=250E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-177G SPICE Macro-model 4/90, Rev. A * This version of the OP-177 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-177G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 39 ; output * INPUT STAGE & POLE AT 6 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 97 0.0606 R4 6 97 0.0606 CIN 1 2 4E-12 C2 5 6 218.9E-9 I1 4 51 1 IOS 1 2 2.8E-9 EOS 9 10 POLY(1) 30 33 60E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 0.009 R6 8 4 0.009 D1 2 1 DX D2 1 2 DX EN 10 1 12 0 1 GN1 0 2 15 0 1 GN2 0 1 18 0 1 EREF 98 0 33 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * VOLTAGE NOISE SOURCE WITH FLICKER NOISE DN1 11 12 DEN DN2 12 13 DEN VN1 11 0 DC 2 VN2 0 13 DC 2 * CURRENT NOISE SOURCE WITH FLICKER NOISE DN3 14 15 DIN DN4 15 16 DIN VN3 14 0 DC 2 VN4 0 16 DC 2 * SECOND CURRENT NOISE SOURCE DN5 17 18 DIN DN6 18 19 DIN VN5 17 0 DC 2 VN6 0 19 DC 2 * FIRST GAIN STAGE R7 20 98 1 G1 98 20 5 6 119.9 D3 20 21 DX D4 22 20 DX E1 97 21 POLY(1) 97 33 -2.4 1 E2 22 51 POLY(1) 33 51 -2.4 1 * GAIN STAGE & DOMINANT POLE AT 0.318 HZ R8 23 98 501E6 C3 23 98 1E-9 G2 98 23 20 33 33.3E-6 V1 97 24 1.8 V2 25 51 1.8 D5 23 24 DX D6 25 23 DX * NEGATIVE ZERO AT -4MHZ R9 26 27 1 C4 26 27 -39.75E-9 R10 27 98 1E-6 E3 26 98 23 33 1E6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R13 30 31 1 L2 31 98 7.96E-3 G4 98 30 3 33 1.778E-6 D7 30 97 DX D8 51 30 DX * POLE AT 2 MHZ R14 32 98 1 C5 32 98 79.5E-9 G5 98 32 27 33 1 * OUTPUT STAGE R15 33 97 1 R16 33 51 1 GSY 99 50 POLY(1) 99 50 0.725E-3 0.0425E-3 R17 34 99 400 R18 34 50 400 L3 34 39 2E-7 G6 37 50 32 34 2.5E-3 G7 38 50 34 32 2.5E-3 G8 34 99 99 32 2.5E-3 G9 50 34 32 50 2.5E-3 V3 35 34 7.3 V4 34 36 4.9 D9 32 35 DX D10 36 32 DX D11 99 37 DX D12 99 38 DX D13 50 37 DY D14 50 38 DY * MODELS USED .MODEL QX NPN(BF=178.6E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .MODEL DEN D(IS=1E-12, RS=14.61K, KF=2E-17, AF=1) .MODEL DIN D(IS=1E-12, RS=7.55E-6, KF=3E-15, AF=1) .ENDS *------------------------------------------------------------------------------ * OP-200 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-200/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 25 ; output * INPUT STAGE & POLE AT 4.5 MHZ RI1 2 31 1E3 RI2 1 32 1E3 R1 31 3 5E5 R2 32 3 5E5 R3 5 99 516 R4 6 99 516 CIN 32 31 3.2E-12 C2 5 6 34.271E-12 I1 4 50 0.1E-3 IOS 32 31 50E-12 EOS 7 32 POLY(1) 13 19 25E-6 1 Q1 5 31 4 QX Q2 6 7 4 QX D21 31 7 DX D22 7 31 DX * FIRST GAIN STAGE & DOMINANT POLE AT 0.125 HZ R5 8 99 1.9098E9 R6 8 50 1.9098E9 C3 8 99 666.67E-12 C4 8 50 666.67E-12 G1 99 8 POLY(1) 5 6 200E-6 1.938E-3 G2 8 50 POLY(1) 6 5 200E-6 1.938E-3 D1 8 99 DX D2 50 8 DX * SECOND GAIN STAGE & POLE AT 4.5 MHZ R7 10 99 1E6 R8 10 50 1E6 C5 10 99 35.368E-15 C6 10 50 35.368E-15 G3 99 10 8 19 1.3509E-6 G4 10 50 19 8 1.3509E-6 V2 99 9 2.7 V3 11 50 2.7 D3 10 9 DX D4 11 10 DX * POLE AT 4.5 MHZ R9 12 99 1E6 R10 12 50 1E6 C7 12 99 35.368E-15 C8 12 50 35.368E-15 G5 99 12 10 19 1E-6 G6 12 50 19 10 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R11 13 14 1E6 R12 13 15 1E6 L1 14 99 7.9578E3 L2 15 50 7.9578E3 G7 99 13 3 19 1E-13 G8 13 50 19 3 1E-13 D5 13 99 DX D6 50 13 DX * POLE AT 4.5 MHZ R14 18 99 1E6 R15 18 50 1E6 C9 18 99 35.368E-15 C10 18 50 35.368E-15 G9 99 18 12 19 1E-6 G10 18 50 19 12 1E-6 * OUTPUT STAGE R16 19 99 62.22E3 R17 19 50 62.22E3 R18 24 99 250 R19 24 50 250 L3 24 25 7E-7 G11 22 50 18 24 4E-3 G12 23 50 24 18 4E-3 G13 24 99 99 18 4E-3 G14 50 24 18 50 4E-3 V6 20 24 3 V7 24 21 3 D7 18 20 DX D8 21 18 DX D9 99 22 DX D10 99 23 DX D11 50 22 DY D12 50 23 DY * MODELS USED .MODEL QX NPN(BF=500000) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-249 SPICE Macro-model 8/90, Rev. A .SUBCKT OP-249/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 30 ; output * INPUT STAGE & POLE AT 100 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 652.3 R4 6 50 652.3 CIN 1 2 5E-12 C2 5 6 1.22E-12 I1 99 4 1E-3 IOS 1 2 6E-12 EOS 7 1 POLY(1) 20 24 200E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 4.37 HZ R5 9 99 913.4E6 R6 9 50 913.4E6 C3 9 99 40E-12 C4 9 50 40E-12 G1 99 9 POLY(1) 5 6 4.25E-3 1.533E-3 G2 9 50 POLY(1) 6 5 4.25E-3 1.533E-3 V2 99 8 2.9 V3 10 50 2.9 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 2 MHZ / 4.0 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 1E6 R10 11 13 1E6 C5 12 99 39.79E-15 C6 13 50 39.79E-15 G3 99 11 9 24 1E-6 G4 11 50 24 9 1E-6 * ZERO-POLE PAIR AT 4 MHZ / 8 MHZ R11 99 15 1E6 R12 14 15 1E6 R13 14 16 1E6 R14 50 16 1E6 L1 99 15 19.89E-3 L2 50 16 19.89E-3 G5 99 14 11 24 1E-6 G6 14 50 24 11 1E-6 * POLE AT 20 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 7.96E-15 C10 17 50 7.96E-15 G7 99 17 14 24 1E-6 G8 17 50 24 14 1E-6 * POLE AT 50 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3.18E-15 C12 18 50 3.18E-15 G9 99 18 17 24 1E-6 G10 18 50 24 17 1E-6 * POLE AT 50 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3.18E-15 C14 19 50 3.18E-15 G11 99 19 18 24 1E-6 G12 19 50 24 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 60 KHZ R21 20 21 1E6 R22 20 22 1E6 L3 21 99 2.65 L4 22 50 2.65 G13 99 20 3 24 31.6E-12 G14 20 50 24 3 31.6E-12 * POLE AT 50 MHZ R23 23 99 1E6 R24 23 50 1E6 C15 23 99 3.18E-15 C16 23 50 3.18E-15 G15 99 23 19 24 1E-6 G16 23 50 24 19 1E-6 * OUTPUT STAGE R25 24 99 135E3 R26 24 50 135E3 R27 29 99 70 R28 29 50 70 L5 29 30 4E-7 G17 27 50 23 29 14.3E-3 G18 28 50 29 23 14.3E-3 G19 29 99 99 23 14.3E-3 G20 50 29 23 50 14.3E-3 V4 25 29 .4 V5 29 26 .4 D3 23 25 DX D4 26 23 DX D5 99 27 DX D6 99 28 DX D7 50 27 DY D8 50 28 DY * MODELS USED .MODEL JX PJF(BETA=1.175E-3 VTO=-2.000 IS=30E-12) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-249A SPICE Macro-model 8/90, Rev. A * This version of the OP-249 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-249A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 30 ; output * INPUT STAGE & POLE AT 100 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 469.3 R4 6 50 469.3 CIN 1 2 5E-12 C2 5 6 1.7E-12 I1 99 4 1E-3 IOS 1 2 25E-12 EOS 7 1 POLY(1) 20 24 500E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 6.1 HZ R5 9 99 469.3E6 R6 9 50 469.3E6 C3 9 99 55.6E-12 C4 9 50 55.6E-12 G1 99 9 POLY(1) 5 6 5.65E-3 2.131E-3 G2 9 50 POLY(1) 6 5 5.65E-3 2.131E-3 V2 99 8 3.4 V3 10 50 3.4 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 2 MHZ / 4.0 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 1E6 R10 11 13 1E6 C5 12 99 39.79E-15 C6 13 50 39.79E-15 G3 99 11 9 24 1E-6 G4 11 50 24 9 1E-6 * ZERO-POLE PAIR AT 4 MHZ / 8 MHZ R11 99 15 1E6 R12 14 15 1E6 R13 14 16 1E6 R14 50 16 1E6 L1 99 15 19.89E-3 L2 50 16 19.89E-3 G5 99 14 11 24 1E-6 G6 14 50 24 11 1E-6 * POLE AT 20 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 7.96E-15 C10 17 50 7.96E-15 G7 99 17 14 24 1E-6 G8 17 50 24 14 1E-6 * POLE AT 50 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3.18E-15 C12 18 50 3.18E-15 G9 99 18 17 24 1E-6 G10 18 50 24 17 1E-6 * POLE AT 50 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3.18E-15 C14 19 50 3.18E-15 G11 99 19 18 24 1E-6 G12 19 50 24 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 60 KHZ R21 20 21 1E6 R22 20 22 1E6 L3 21 99 2.65 L4 22 50 2.65 G13 99 20 3 24 100E-12 G14 20 50 24 3 100E-12 * POLE AT 50 MHZ R23 23 99 1E6 R24 23 50 1E6 C15 23 99 3.18E-15 C16 23 50 3.18E-15 G15 99 23 19 24 1E-6 G16 23 50 24 19 1E-6 * OUTPUT STAGE R25 24 99 135E3 R26 24 50 135E3 R27 29 99 70 R28 29 50 70 L5 29 30 4E-7 G17 27 50 23 29 14.3E-3 G18 28 50 29 23 14.3E-3 G19 29 99 99 23 14.3E-3 G20 50 29 23 50 14.3E-3 V4 25 29 .1 V5 29 26 .1 D3 23 25 DX D4 26 23 DX D5 99 27 DX D6 99 28 DX D7 50 27 DY D8 50 28 DY * MODELS USED .MODEL JX PJF(BETA=2.27E-3 VTO=-2.000 IS=75E-12) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-249E SPICE Macro-model 8/90, Rev. A * This version of the OP-249 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-249E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 30 ; output * INPUT STAGE & POLE AT 100 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 469.3 R4 6 50 469.3 CIN 1 2 5E-12 C2 5 6 1.7E-12 I1 99 4 1E-3 IOS 1 2 15E-12 EOS 7 1 POLY(1) 20 24 300E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 6.1 HZ R5 9 99 469.3E6 R6 9 50 469.3E6 C3 9 99 55.6E-12 C4 9 50 55.6E-12 G1 99 9 POLY(1) 5 6 5.65E-3 2.131E-3 G2 9 50 POLY(1) 6 5 5.65E-3 2.131E-3 V2 99 8 3.4 V3 10 50 3.4 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 2 MHZ / 4.0 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 1E6 R10 11 13 1E6 C5 12 99 39.79E-15 C6 13 50 39.79E-15 G3 99 11 9 24 1E-6 G4 11 50 24 9 1E-6 * ZERO-POLE PAIR AT 4 MHZ / 8 MHZ R11 99 15 1E6 R12 14 15 1E6 R13 14 16 1E6 R14 50 16 1E6 L1 99 15 19.89E-3 L2 50 16 19.89E-3 G5 99 14 11 24 1E-6 G6 14 50 24 11 1E-6 * POLE AT 20 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 7.96E-15 C10 17 50 7.96E-15 G7 99 17 14 24 1E-6 G8 17 50 24 14 1E-6 * POLE AT 50 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3.18E-15 C12 18 50 3.18E-15 G9 99 18 17 24 1E-6 G10 18 50 24 17 1E-6 * POLE AT 50 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3.18E-15 C14 19 50 3.18E-15 G11 99 19 18 24 1E-6 G12 19 50 24 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 60 KHZ R21 20 21 1E6 R22 20 22 1E6 L3 21 99 2.65 L4 22 50 2.65 G13 99 20 3 24 50E-12 G14 20 50 24 3 50E-12 * POLE AT 50 MHZ R23 23 99 1E6 R24 23 50 1E6 C15 23 99 3.18E-15 C16 23 50 3.18E-15 G15 99 23 19 24 1E-6 G16 23 50 24 19 1E-6 * OUTPUT STAGE R25 24 99 135E3 R26 24 50 135E3 R27 29 99 70 R28 29 50 70 L5 29 30 4E-7 G17 27 50 23 29 14.3E-3 G18 28 50 29 23 14.3E-3 G19 29 99 99 23 14.3E-3 G20 50 29 23 50 14.3E-3 V4 25 29 .1 V5 29 26 .1 D3 23 25 DX D4 26 23 DX D5 99 27 DX D6 99 28 DX D7 50 27 DY D8 50 28 DY * MODELS USED .MODEL JX PJF(BETA=2.27E-3 VTO=-2.000 IS=50E-12) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-249F SPICE Macro-model 4/90, Rev. A * This version of the OP-249 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-249F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 30 ; output * INPUT STAGE & POLE AT 100 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 469.7 R4 6 50 469.7 CIN 1 2 5E-12 C2 5 6 1.69E-12 I1 99 4 1E-3 IOS 1 2 25E-12 EOS 7 1 POLY(1) 20 24 700E-6 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 12.2 HZ R5 9 99 234.8E6 R6 9 50 234.8E6 C3 9 99 55.6E-12 C4 9 50 55.6E-12 G1 99 9 POLY(1) 5 6 5.65E-3 2.129E-3 G2 9 50 POLY(1) 6 5 5.65E-3 2.129E-3 V2 99 8 3.4 V3 10 50 3.4 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 2 MHZ / 4.0 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 1E6 R10 11 13 1E6 C5 12 99 39.79E-15 C6 13 50 39.79E-15 G3 99 11 9 24 1E-6 G4 11 50 24 9 1E-6 * ZERO-POLE PAIR AT 4 MHZ / 8 MHZ R11 99 15 1E6 R12 14 15 1E6 R13 14 16 1E6 R14 50 16 1E6 L1 99 15 19.89E-3 L2 50 16 19.89E-3 G5 99 14 11 24 1E-6 G6 14 50 24 11 1E-6 * POLE AT 20 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 7.96E-15 C10 17 50 7.96E-15 G7 99 17 14 24 1E-6 G8 17 50 24 14 1E-6 * POLE AT 50 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3.18E-15 C12 18 50 3.18E-15 G9 99 18 17 24 1E-6 G10 18 50 24 17 1E-6 * POLE AT 50 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3.18E-15 C14 19 50 3.18E-15 G11 99 19 18 24 1E-6 G12 19 50 24 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 60 KHZ R21 20 21 1E6 R22 20 22 1E6 L3 21 99 2.65 L4 22 50 2.65 G13 99 20 3 24 100E-12 G14 20 50 24 3 100E-12 * POLE AT 50 MHZ R23 23 99 1E6 R24 23 50 1E6 C15 23 99 3.18E-15 C16 23 50 3.18E-15 G15 99 23 19 24 1E-6 G16 23 50 24 19 1E-6 * OUTPUT STAGE R25 24 99 135E3 R26 24 50 135E3 R27 29 99 70 R28 29 50 70 L5 29 30 4E-7 G17 27 50 23 29 14.3E-3 G18 28 50 29 23 14.3E-3 G19 29 99 99 23 14.3E-3 G20 50 29 23 50 14.3E-3 V4 25 29 .1 V5 29 26 .1 D3 23 25 DX D4 26 23 DX D5 99 27 DX D6 99 28 DX D7 50 27 DY D8 50 28 DY * MODELS USED .MODEL JX PJF(BETA=2.266E-3 VTO=-2.000 IS=75E-12) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-249G SPICE Macro-model 4/90, Rev. A * This version of the OP-249 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-249G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 30 ; output * INPUT STAGE & POLE AT 100 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 469.7 R4 6 50 469.7 CIN 1 2 5E-12 C2 5 6 1.69E-12 I1 99 4 1E-3 IOS 1 2 25E-12 EOS 7 1 POLY(1) 20 24 2E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 12.2 HZ R5 9 99 234.8E6 R6 9 50 234.8E6 C3 9 99 55.6E-12 C4 9 50 55.6E-12 G1 99 9 POLY(1) 5 6 5.65E-3 2.129E-3 G2 9 50 POLY(1) 6 5 5.65E-3 2.129E-3 V2 99 8 3.4 V3 10 50 3.4 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 2 MHZ / 4.0 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 1E6 R10 11 13 1E6 C5 12 99 39.79E-15 C6 13 50 39.79E-15 G3 99 11 9 24 1E-6 G4 11 50 24 9 1E-6 * ZERO-POLE PAIR AT 4 MHZ / 8 MHZ R11 99 15 1E6 R12 14 15 1E6 R13 14 16 1E6 R14 50 16 1E6 L1 99 15 19.89E-3 L2 50 16 19.89E-3 G5 99 14 11 24 1E-6 G6 14 50 24 11 1E-6 * POLE AT 20 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 7.96E-15 C10 17 50 7.96E-15 G7 99 17 14 24 1E-6 G8 17 50 24 14 1E-6 * POLE AT 50 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3.18E-15 C12 18 50 3.18E-15 G9 99 18 17 24 1E-6 G10 18 50 24 17 1E-6 * POLE AT 50 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3.18E-15 C14 19 50 3.18E-15 G11 99 19 18 24 1E-6 G12 19 50 24 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 60 KHZ R21 20 21 1E6 R22 20 22 1E6 L3 21 99 2.65 L4 22 50 2.65 G13 99 20 3 24 158E-12 G14 20 50 24 3 158E-12 * POLE AT 50 MHZ R23 23 99 1E6 R24 23 50 1E6 C15 23 99 3.18E-15 C16 23 50 3.18E-15 G15 99 23 19 24 1E-6 G16 23 50 24 19 1E-6 * OUTPUT STAGE R25 24 99 135E3 R26 24 50 135E3 R27 29 99 70 R28 29 50 70 L5 29 30 4E-7 G17 27 50 23 29 14.3E-3 G18 28 50 29 23 14.3E-3 G19 29 99 99 23 14.3E-3 G20 50 29 23 50 14.3E-3 V4 25 29 .1 V5 29 26 .1 D3 23 25 DX D4 26 23 DX D5 99 27 DX D6 99 28 DX D7 50 27 DY D8 50 28 DY * MODELS USED .MODEL JX PJF(BETA=2.266E-3 VTO=-2.000 IS=75E-12) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-260 SPICE Macro-model 5/89, Rev. A .SUBCKT OP-260/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 24 ; output * INPUT STAGE R1 99 8 4K R2 10 50 4K V1 99 9 1.1 D1 9 8 DX V2 11 50 1.1 D2 10 11 DX I1 99 5 150U I2 4 50 150U Q1 50 3 5 QP Q2 99 3 4 QN Q3 8 6 2 QN Q4 10 7 2 QP R3 5 6 14.3K R4 4 7 14.3K C1 99 6 0.133P C2 50 7 0.133P * INPUT ERROR SOURCES * GB1 99 2 POLY(1) 1 18 3E-6 4E-8 IB1 99 1 2E-7 VOS 3 1 1E-3 CS1 99 2 0.8E-12 CS2 50 2 0.8E-12 * GAIN STAGE & DOMINANT POLE R5 12 99 10E6 R6 12 50 10E6 C3 12 99 0.6P C4 12 50 0.6P G1 99 12 POLY(1) 99 8 4E-3 0.25E-3 G2 12 50 POLY(1) 10 50 4E-3 0.25E-3 V3 99 13 2.2 V4 14 50 2.2 D3 12 13 DX D4 14 12 DX * POLE AT 80 MHZ R7 15 99 1E6 R8 15 50 1E6 C5 15 99 2.5E-15 C6 15 50 2.5E-15 G3 99 15 12 18 1E-6 G4 15 50 18 12 1E-6 * POLE AT 80 MHZ R9 16 99 1E6 R10 16 50 1E6 C7 16 99 2.2E-15 C8 16 50 2.2E-15 G5 99 16 15 18 1E-6 G6 16 50 18 15 1E-6 * POLE AT 80 MHZ R11 17 99 1E6 R12 17 50 1E6 C9 17 99 2E-15 C10 17 50 2E-15 G7 99 17 16 18 1E-6 G8 17 50 18 16 1E-6 * OUTPUT STAGE R13 18 99 3.333E3 R14 18 50 3.333E3 R15 23 99 150 R16 23 50 150 L1 23 24 1.5E-8 CF1 24 2 1.8P G9 21 50 17 23 6.66667E-3 G10 22 50 23 17 6.66667E-3 G11 23 99 99 17 6.66667E-3 G12 50 23 17 50 6.66667E-3 V5 19 23 1.55 V6 23 20 1.55 D5 17 19 DX D6 20 17 DX D7 99 21 DX D8 99 22 DX D9 50 21 DY D10 50 22 DY * MODELS USED .MODEL QN NPN(BF=1E9 IS=1E-15 VAF=150) .MODEL QP PNP(BF=1E9 IS=1E-15 VAF=150) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-290 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-290/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1UA IOS 1 2 0.1E-9 EOS 9 1 POLY(1) 23 27 50E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 42.23E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.035 HZ R8 13 98 54.57E9 C3 13 98 83.333E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.9 V2 15 51 -2.9 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.16E-13 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 9.167E-6 R16 27 99 4.5E6 R17 27 50 4.5E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=125) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-290A SPICE Macro-model 4/90, Rev. A * This version of the OP-290 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-290A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 200E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-290E SPICE Macro-model 4/90, Rev. A * This version of the OP-290 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-290E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 200E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-290F SPICE Macro-model 4/90, Rev. A * This version of the OP-290 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-290F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 300E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=25) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-290G SPICE Macro-model 4/90, Rev. A * This version of the OP-290 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-290G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 500E-6 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=20) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-400 SPICE Macro-model 4/89, Rev. B .SUBCKT OP-400/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 25 ; output * INPUT STAGE & POLE AT 4.5 MHZ RI1 2 31 1E3 RI2 1 32 1E3 R1 31 3 5E5 R2 32 3 5E5 R3 5 99 516 R4 6 99 516 CIN 32 31 3.2E-12 C2 5 6 34.271E-12 I1 4 50 0.1E-3 IOS 32 31 1E-10 EOS 7 32 POLY(1) 13 19 4E-5 1 Q1 5 31 4 QX Q2 6 7 4 QX D21 31 7 DX D22 7 31 DX * FIRST GAIN STAGE & DOMINANT POLE AT 0.125 HZ R5 8 99 1.9098E9 R6 8 50 1.9098E9 C3 8 99 666.67E-12 C4 8 50 666.67E-12 G1 99 8 POLY(1) 5 6 200E-6 1.938E-3 G2 8 50 POLY(1) 6 5 200E-6 1.938E-3 D1 8 99 DX D2 50 8 DX * SECOND GAIN STAGE & POLE AT 4.5 MHZ R7 10 99 1E6 R8 10 50 1E6 C5 10 99 35.368E-15 C6 10 50 35.368E-15 G3 99 10 8 19 1.3509E-6 G4 10 50 19 8 1.3509E-6 V2 99 9 2.7 V3 11 50 2.7 D3 10 9 DX D4 11 10 DX * POLE AT 4.5 MHZ R9 12 99 1E6 R10 12 50 1E6 C7 12 99 35.368E-15 C8 12 50 35.368E-15 G5 99 12 10 19 1E-6 G6 12 50 19 10 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 20 HZ R11 13 14 1E6 R12 13 15 1E6 L1 14 99 7.9578E3 L2 15 50 7.9578E3 G7 99 13 3 19 1E-13 G8 13 50 19 3 1E-13 D5 13 99 DX D6 50 13 DX * POLE AT 4.5 MHZ R14 18 99 1E6 R15 18 50 1E6 C9 18 99 35.368E-15 C10 18 50 35.368E-15 G9 99 18 12 19 1E-6 G10 18 50 19 12 1E-6 * OUTPUT STAGE R16 19 99 62.22E3 R17 19 50 62.22E3 R18 24 99 250 R19 24 50 250 L3 24 25 7E-7 G11 22 50 18 24 4E-3 G12 23 50 24 18 4E-3 G13 24 99 99 18 4E-3 G14 50 24 18 50 4E-3 V6 20 24 3 V7 24 21 3 D7 18 20 DX D8 21 18 DX D9 99 22 DX D10 99 23 DX D11 50 22 DY D12 50 23 DY * MODELS USED .MODEL QX NPN(BF=66667) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-470 SPICE Macro-model 10/89, Rev. A .SUBCKT OP-470/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 35 ; output * INPUT STAGE & POLE AT 60 MHZ R1 2 3 2E5 R2 1 3 2E5 R3 7 99 57.875 R4 8 99 57.875 CIN 1 2 2E-12 C2 7 8 22.92E-12 I1 11 50 1E-3 IOS 1 2 3E-9 EOS 6 1 POLY(1) 25 29 1E-4 1 Q1 7 2 9 QX Q2 8 6 10 QX R5 9 11 6.275 R6 10 11 6.275 D1 2 4 DX V1 4 6 0.7 V2 6 5 0.7 D2 5 2 DX * FIRST GAIN STAGE & DOMINANT POLE AT 5.5 HZ R7 12 99 57.875E6 R8 12 50 57.875E6 C3 12 99 500E-12 C4 12 50 500E-12 G1 99 12 POLY(1) 7 8 380E-6 17.279E-3 G2 12 50 POLY(1) 8 7 380E-6 17.279E-3 V3 99 13 1.9 V4 14 50 1.9 D3 12 13 DX D4 14 12 DX * POLE-ZERO AT 2MHZ / 6 MHZ R9 15 99 1E6 R10 15 50 1E6 R11 15 16 5E5 R12 15 17 5E5 C5 16 99 53.05E-15 C6 17 50 53.05E-15 G3 99 15 12 29 1E-6 G4 15 50 29 12 1E-6 * ZERO-POLE AT 5MHZ / 60 MHZ R13 99 19 11E6 R14 18 19 1E6 R15 18 20 1E6 R16 20 50 11E6 L1 99 19 29.18E-3 L2 50 20 29.18E-3 G5 99 18 15 29 1E-6 G6 18 50 29 15 1E-6 * POLE AT 30 MHZ R17 21 99 1E6 R18 21 50 1E6 C7 21 99 5.305E-15 C8 21 50 5.305E-15 G7 99 21 18 29 1E-6 G8 21 50 29 18 1E-6 * POLE AT 50 MHZ R19 22 99 1E6 R20 22 50 1E6 C9 22 99 3.18E-15 C10 22 50 3.18E-15 G9 99 22 21 29 1E-6 G10 22 50 29 21 1E-6 * POLE AT 50 MHZ R21 23 99 1E6 R22 23 50 1E6 C11 23 99 3.18E-15 C12 23 50 3.18E-15 G11 99 23 22 29 1E-6 G12 23 50 29 22 1E-6 * POLE AT 50 MHZ R23 24 99 1E6 R24 24 50 1E6 C13 24 99 3.18E-15 C14 24 50 3.18E-15 G13 99 24 23 29 1E-6 G14 24 50 29 23 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 HZ R25 25 26 1E6 R26 25 27 1E6 L3 26 99 1.592E3 L4 27 50 1.592E3 G15 99 25 3 29 1E-12 G16 25 50 29 3 1E-12 D5 25 99 DX D6 50 25 DX * POLE AT 50 MHZ R27 28 99 1E6 R28 28 50 1E6 C15 28 99 3.18E-15 C16 28 50 3.18E-15 G17 99 28 24 29 1E-6 G18 28 50 29 24 1E-6 * OUTPUT STAGE R29 29 99 20E3 R30 29 50 20E3 R31 34 99 250 R32 34 50 250 L5 34 35 7E-7 G19 32 50 28 34 4E-3 G20 33 50 34 28 4E-3 G21 34 99 99 28 4E-3 G22 50 34 28 50 4E-3 V5 30 34 1.3 V6 34 31 1.3 D7 28 30 DX D8 31 28 DX D9 99 32 DX D10 99 33 DX D11 50 32 DY D12 50 33 DY * MODELS USED .MODEL QX NPN(BF=166667) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-490 SPICE Macro-model 4/90, Rev. A .SUBCKT OP-490/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1UA IOS 1 2 0.4E-9 EOS 9 1 POLY(1) 23 27 2E-4 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 42.23E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.035 HZ R8 13 98 54.57E9 C3 13 98 83.333E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -2.9 V2 15 51 -2.9 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.16E-13 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 9.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=119) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-490A SPICE Macro-model 4/90, Rev. A * This version of the OP-490 model simulates the worst case * parameters of the 'A' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-490A/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 5E-4 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-490E SPICE Macro-model 4/90, Rev. A * This version of the OP-490 model simulates the worst case * parameters of the 'E' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-490E/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 3E-9 EOS 9 1 POLY(1) 23 27 5E-4 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.47E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.323 HZ R8 13 98 2.464E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 1E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=33.333) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-490F SPICE Macro-model 4/90, Rev. A * This version of the OP-490 model simulates the worst case * parameters of the 'F' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-490F/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 .75E-3 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=25) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * OP-490G SPICE Macro-model 4/90, Rev. A * This version of the OP-490 model simulates the worst case * parameters of the 'G' grade. The worst case parameters * used correspond to those in the data book. .SUBCKT OP-490G/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 31 ; output * INPUT STAGE & POLE AT 10 KHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 51 61.6E3 R4 6 51 61.6E3 CIN 1 2 4E-12 C2 5 6 129.2E-12 I1 97 4 1E-6 IOS 1 2 5E-9 EOS 9 1 POLY(1) 23 27 1E-3 1 Q1 5 2 7 QX Q2 6 9 8 QX R5 7 4 10E3 R6 8 4 10E3 EREF 98 0 27 0 1 EPLUS 97 0 99 0 1 ENEG 51 0 50 0 1 * FIRST GAIN STAGE R7 10 98 1E6 G1 98 10 5 6 101.36E-6 D1 10 11 DX D2 12 10 DX E1 97 11 POLY(1) 97 27 -1.4 1 E2 12 51 POLY(1) 27 51 -1.4 1 * GAIN STAGE & DOMINANT POLE AT 0.403 HZ R8 13 98 1.973E9 C3 13 98 200E-12 G2 98 13 10 27 0.5E-6 V1 97 14 -1.95 V2 15 51 -1.95 D3 13 14 DX D4 15 13 DX * ZERO-IN ZERO-OUT CLAMP D5 16 13 DX H1 16 51 POLY(1) VS1 1.05 -119E6 F1 51 17 VS2 1 D6 17 18 DX VS1 18 51 DC 0 D7 51 17 DX * NEGATIVE ZERO AT -100 KHZ R9 19 20 1E6 C4 19 20 -1.59E-12 R10 20 98 1 E3 19 98 13 27 1E6 * ZERO - POLE PAIR AT 28 KHZ / 100 KHZ R11 21 22 1E6 L1 22 98 4.09 R12 22 98 2.57E6 G3 98 21 20 27 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 4 HZ R13 23 24 1E6 L2 24 98 39.79E3 G4 98 23 3 27 3.162E-11 D8 23 97 DX D9 51 23 DX * ZERO - POLE PAIR AT 40 KHZ / 160 KHZ R14 25 26 1E6 L3 26 98 2.98 R15 26 98 3E6 G5 98 25 21 27 1E-6 * OUTPUT STAGE ISY 99 50 14.444E-6 R16 27 99 2.7E6 R17 27 50 2.7E6 R18 30 99 6000 R19 30 50 6000 VS2 30 31 DC 0 G6 28 50 25 30 166.7E-6 G7 29 50 30 25 166.7E-6 G8 30 99 99 25 166.7E-6 G9 50 30 25 50 166.7E-6 D10 99 28 DX D11 99 29 DX D12 50 28 DY D13 50 29 DY * MODELS USED .MODEL QX PNP(BF=20) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * PM-1012 SPICE Macro-model 12/89, Rev. A .SUBCKT PM-1012/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 38 ; output * INPUT STAGE & POLE AT 15 MHZ R1 2 3 5E11 R2 1 3 5E11 R3 5 99 612 R4 6 99 612 CIN 1 2 4E-12 C2 5 6 8.67E-12 I1 4 50 0.1E-3 IOS 1 2 15E-12 EOS 9 1 POLY(1) 26 32 8E-6 1 Q1 5 2 10 QX Q2 6 9 11 QX R5 10 4 96 R6 11 4 96 D12 2 9 DX D13 9 2 DX * GAIN STAGE & DOMINANT POLE AT 0.26 HZ R9 13 99 1.22E9 R10 13 50 1.22E9 C3 13 99 500E-12 C4 13 50 500E-12 G3 99 13 5 6 1.634E-3 G4 13 50 6 5 1.634E-3 V2 99 14 1.3 V3 15 50 1.3 D1 13 14 DX D2 15 13 DX GS 99 50 POLY(1) 99 50 0.28E-3 -3.7E-6 * ZERO-POLE PAIR AT 150 KHZ / 285 KHZ R17 19 20 1E6 R18 19 21 1E6 R19 20 99 0.9E6 R20 21 50 0.9E6 L3 20 99 0.503 L4 21 50 0.503 G7 99 19 13 32 1E-6 G8 19 50 32 13 1E-6 * POLE AT 4.8 MHZ R21 22 99 1E6 R22 22 50 1E6 C7 22 99 33.2E-15 C8 22 50 33.2E-15 G9 99 22 19 32 1E-6 G10 22 50 32 19 1E-6 * POLE AT 8 MHZ R23 23 99 1E6 R24 23 50 1E6 C9 23 99 19.9E-15 C10 23 50 19.9E-15 G11 99 23 22 32 1E-6 G12 23 50 32 22 1E-6 * POLE AT 10 MHZ R25 24 99 1E6 R26 24 50 1E6 C11 24 99 15.9E-15 C12 24 50 15.9E-15 G13 99 24 23 32 1E-6 G14 24 50 32 23 1E-6 * POLE AT 15 MHZ R27 25 99 1E6 R28 25 50 1E6 C13 25 99 10.6E-15 C14 25 50 10.6E-15 G15 99 25 24 32 1E-6 G16 25 99 32 24 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 50 KHZ R29 26 27 1E6 R30 26 28 1E6 L5 27 99 3.183E3 L6 28 50 3.183E3 RS1 27 99 16E9 RS2 28 50 16E9 G17 99 26 3 32 2.51E-13 G18 26 50 32 3 2.51E-13 D3 26 99 DX D4 50 26 DX * POLE AT 12 MHZ R32 31 99 1E6 R33 31 50 1E6 C15 31 99 13.2E-15 C16 31 50 13.2E-15 G19 99 31 25 32 1E-6 G20 31 50 32 25 1E-6 * OUTPUT STAGE R34 32 99 1E6 R35 32 50 1E6 R36 33 99 600 R37 33 50 600 L7 33 38 2.65E-7 G21 36 50 31 33 1.6667E-3 G22 37 50 33 31 1.6667E-3 G23 33 99 99 31 1.6667E-3 G24 50 33 31 50 1.6667E-3 V6 34 33 3.6 V7 33 35 3.0 D5 31 34 DX D6 35 31 DX D7 99 36 DX D8 99 37 DX D9 50 36 DY D10 50 37 DY * MODELS USED .MODEL QX NPN(BF=2E6) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * SSM-2131 SPICE Macro-model 4/90, Rev. B .SUBCKT SSM-2131/AD + 1 ; non-inverting input + 2 ; inverting input + 99 ; positive supply + 50 ; negative supply + 32 ; output * INPUT STAGE & POLE AT 15.9 MHZ R1 1 3 5E11 R2 2 3 5E11 R3 5 50 707.36 R4 6 50 707.36 CIN 1 2 5E-12 C2 5 6 7.08E-12 I1 99 4 1E-3 IOS 1 2 6E-12 EOS 7 1 POLY(1) 20 26 1.5E-3 1 J1 5 2 4 JX J2 6 7 4 JX * SECOND STAGE & POLE AT 45 HZ R5 9 99 176.84E6 R6 9 50 176.84E6 C3 9 99 20E-12 C4 9 50 20E-12 G1 99 9 POLY(1) 5 6 3.96E-3 1.4137E-3 G2 9 50 POLY(1) 6 5 3.96E-3 1.4137E-3 V2 99 8 2.5 V3 10 50 3.1 D1 9 8 DX D2 10 9 DX * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R7 11 99 1E6 R8 11 50 1E6 R9 11 12 4.5E6 R10 11 13 4.5E6 C5 12 99 16.1E-15 C6 13 50 16.1E-15 G3 99 11 9 26 1E-6 G4 11 50 26 9 1E-6 * POLE-ZERO PAIR AT 1.80 MHZ / 2.20 MHZ R11 14 99 1E6 R12 14 50 1E6 R13 14 15 4.5E6 R14 14 16 4.5E6 C7 15 99 16.1E-15 C8 16 50 16.1E-15 G5 99 14 11 26 1E-6 G6 14 50 26 11 1E-6 * POLE AT 53 MHZ R15 17 99 1E6 R16 17 50 1E6 C9 17 99 3E-15 C10 17 50 3E-15 G7 99 17 14 26 1E-6 G8 17 50 26 14 1E-6 * POLE AT 53 MHZ R17 18 99 1E6 R18 18 50 1E6 C11 18 99 3E-15 C12 18 50 3E-15 G9 99 18 17 26 1E-6 G10 18 50 26 17 1E-6 * POLE AT 53 MHZ R19 19 99 1E6 R20 19 50 1E6 C13 19 99 3E-15 C14 19 50 3E-15 G11 99 19 18 26 1E-6 G12 19 50 26 18 1E-6 * COMMON-MODE GAIN NETWORK WITH ZERO AT 100 KHZ R21 20 21 1E6 R22 20 23 1E6 L1 21 99 1.5915 L2 23 50 1.5915 G13 99 20 3 26 25.1E-12 G14 20 50 26 3 25.1E-12 * POLE AT 79.6 MHZ R24 25 99 1E6 R25 25 50 1E6 C15 25 99 2E-15 C16 25 50 2E-15 G15 99 25 19 26 1E-6 G16 25 50 26 19 1E-6 * OUTPUT STAGE R26 26 99 111.1E3 R27 26 50 111.1E3 R28 27 99 90 R29 27 50 90 L3 27 32 2.5E-7 G17 30 50 25 27 11.1111E-3 G18 31 50 27 25 11.1111E-3 G19 27 99 99 25 11.1111E-3 G20 50 27 25 50 11.1111E-3 V6 28 27 0.7 V7 27 29 0.7 D5 25 28 DX D6 29 25 DX D7 99 30 DX D8 99 31 DX D9 50 30 DY D10 50 31 DY * MODELS USED .MODEL JX PJF(BETA=999.3E-6 VTO=-2.000 IS=13E-11) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *------------------------------------------------------------------------------ * SSM-2210 SPICE Macro-model 4/90, Rev. A .SUBCKT SSM-2210/AD + 1 ; C1 + 2 ; B1 + 3 ; E1 + 5 ; E2 + 6 ; B2 + 7 ; C2 Q1 1 2 3 NMAT Q2 7 6 5 NMAT D1 3 2 DMAT1 D2 5 6 DMAT1 D3 4 3 DMAT1 D4 4 5 DMAT1 D5 4 1 DMAT2 D6 4 7 DMAT2 .MODEL DMAT1 D(IS=2E-16 RS=20) .MODEL DMAT2 D(IS=1E-14 VJ=0.6 CJO=40P) .MODEL NMAT NPN(BF=500 IS=6E-13 VAF=150 BR=0.5 VAR=7 + RB=13 RC=10 RE=0.3 CJE=82P VJE=0.7 MJE=0.4 TF=0.3E-9 + TR=5E-9 CJC=33P VJC=0.55 MJC=0.5 CJS=0 IKF=0.300 PTF=25) .ENDS *------------------------------------------------------------------------------ * SSM-2220 SPICE Macro-model 4/90, Rev. A .SUBCKT SSM-2220/AD + 1 ; C1 + 2 ; B1 + 3 ; E1 + 5 ; E2 + 6 ; B2 + 7 ; C2 Q1 1 2 3 PMAT Q2 7 6 5 PMAT D1 2 3 DMAT1 D2 6 5 DMAT1 D3 3 4 DMAT1 D4 5 4 DMAT1 D5 1 4 DMAT2 D6 7 4 DMAT2 .MODEL DMAT1 D(IS=7.2E-16 RS=20) .MODEL DMAT2 D(IS=1E-14 VJ=0.6 CJO=68P) .MODEL PMAT PNP(BF=160 IS=1.4E-13 VAF=60 BR=5 VAR=7 RB=16 + RC=12 RE=0.35 CJE=57P VJE=0.7 MJE=0.4 TF=1.08E-9 + TR=3E-8 CJC=40P VJC=0.55 MJC=0.5 CJS=0 IKF=160M) .ENDS * end of library file